mirror of
git://holbrook.no/erc20-demurrage-token
synced 2024-11-28 18:26:47 +01:00
502 lines
17 KiB
Solidity
502 lines
17 KiB
Solidity
pragma solidity > 0.6.11;
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// SPDX-License-Identifier: GPL-3.0-or-later
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contract DemurrageTokenSingleCap {
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// Redistribution bit field, with associated shifts and masks
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// (Uses sub-byte boundaries)
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bytes32[] public redistributions; // uint51(unused) | uint64(demurrageModifier) | uint36(participants) | uint72(value) | uint32(period)
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uint8 constant shiftRedistributionPeriod = 0;
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uint256 constant maskRedistributionPeriod = 0x00000000000000000000000000000000000000000000000000000000ffffffff; // (1 << 32) - 1
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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 = 0x0000000000ffffffffffffffffffffffffffff00000000000000000000000000; // ((1 << 20) - 1) << 140
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// Account balances
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mapping (address => uint256) account;
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// Cached demurrage amount, ppm with 38 digit resolution
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uint128 public demurrageAmount;
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// Cached demurrage period; the period for which demurrageAmount was calculated
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//uint128 public demurragePeriod;
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// Cached demurrage timestamp; the timestamp for which demurrageAmount was last calculated
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uint256 public demurrageTimestamp;
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// Implements EIP172
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address public owner;
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address newOwner;
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// Implements ERC20
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string public name;
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// Implements ERC20
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string public symbol;
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// Implements ERC20
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uint256 public decimals;
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// Implements ERC20
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uint256 public totalSupply;
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// Maximum amount of tokens that can be minted
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uint256 public supplyCap;
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// Minimum amount of (demurraged) tokens an account must spend to participate in redistribution for a particular period
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uint256 public minimumParticipantSpend;
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// 128 bit resolution of the demurrage divisor
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// (this constant x 1000000 is contained within 128 bits)
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uint256 constant nanoDivider = 100000000000000000000000000; // now nanodivider, 6 zeros less
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// remaining decimal positions of nanoDivider to reach 38, equals precision in growth and decay
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uint256 constant growthResolutionFactor = 1000000000000;
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// demurrage decimal width; 38 places
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uint256 public immutable resolutionFactor = nanoDivider * growthResolutionFactor;
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// Timestamp of start of periods (time which contract constructor was called)
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uint256 public immutable periodStart;
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// Duration of a single redistribution period in seconds
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uint256 public immutable periodDuration;
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// Demurrage in ppm per minute
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uint256 public immutable taxLevel;
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// Addresses allowed to mint new tokens
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mapping (address => bool) minter;
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// Storage for ERC20 approve/transferFrom methods
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mapping (address => mapping (address => uint256 ) ) allowance; // holder -> spender -> amount (amount is subject to demurrage)
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// Address to send unallocated redistribution tokens
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address sinkAddress;
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// Implements ERC20
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event Transfer(address indexed _from, address indexed _to, uint256 _value);
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// Implements ERC20
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event Approval(address indexed _owner, address indexed _spender, uint256 _value);
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// New tokens minted
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event Mint(address indexed _minter, address indexed _beneficiary, uint256 _value);
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// New demurrage cache milestone calculated
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event Decayed(uint256 indexed _period, uint256 indexed _periodCount, uint256 indexed _oldAmount, uint256 _newAmount);
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// When a new period threshold has been crossed
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event Period(uint256 _period);
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// Redistribution applied on a single eligible account
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event Redistribution(address indexed _account, uint256 indexed _period, uint256 _value);
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// Temporary event used in development, will be removed on prod
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event Debug(bytes32 _foo);
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// EIP173
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event OwnershipTransferred(address indexed previousOwner, address indexed newOwner); // EIP173
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constructor(string memory _name, string memory _symbol, uint8 _decimals, uint128 _taxLevelMinute, uint256 _periodMinutes, address _defaultSinkAddress, uint256 _supplyCap) public {
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// ACL setup
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owner = msg.sender;
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minter[owner] = true;
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// ERC20 setup
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name = _name;
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symbol = _symbol;
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decimals = _decimals;
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// Demurrage setup
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demurrageTimestamp = block.timestamp;
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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 = 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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redistributions.push(initialRedistribution);
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// Misc settings
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supplyCap = _supplyCap;
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sinkAddress = _defaultSinkAddress;
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minimumParticipantSpend = 10 ** uint256(_decimals);
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}
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// Given address will be allowed to call the mintTo() function
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function addMinter(address _minter) public returns (bool) {
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require(msg.sender == owner);
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minter[_minter] = true;
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return true;
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}
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// Given address will no longer be allowed to call the mintTo() function
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function removeMinter(address _minter) public returns (bool) {
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require(msg.sender == owner || _minter == msg.sender);
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minter[_minter] = false;
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return true;
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}
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/// Implements ERC20
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function balanceOf(address _account) public view returns (uint256) {
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uint256 baseBalance;
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uint256 currentDemurragedAmount;
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uint256 periodCount;
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baseBalance = baseBalanceOf(_account);
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//periodCount = actualPeriod() - demurragePeriod;
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periodCount = getMinutesDelta(demurrageTimestamp);
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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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/// Balance unmodified by demurrage
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function baseBalanceOf(address _account) public view returns (uint256) {
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return account[_account];
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}
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/// Increases base balance for a single account
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function increaseBaseBalance(address _account, uint256 _delta) private returns (bool) {
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uint256 oldBalance;
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uint256 newBalance;
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uint256 workAccount;
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workAccount = uint256(account[_account]);
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if (_delta == 0) {
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return false;
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}
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oldBalance = baseBalanceOf(_account);
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account[_account] = oldBalance + _delta;
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return true;
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}
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/// Decreases base balance for a single account
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function decreaseBaseBalance(address _account, uint256 _delta) private returns (bool) {
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uint256 oldBalance;
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uint256 newBalance;
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uint256 workAccount;
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workAccount = uint256(account[_account]);
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if (_delta == 0) {
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return false;
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}
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oldBalance = baseBalanceOf(_account);
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require(oldBalance >= _delta, 'ERR_OVERSPEND'); // overspend guard
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account[_account] = oldBalance - _delta;
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return true;
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}
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// Creates new tokens out of thin air, and allocates them to the given address
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// Triggers tax
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function mintTo(address _beneficiary, uint256 _amount) external returns (bool) {
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uint256 baseAmount;
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require(minter[msg.sender], 'ERR_ACCESS');
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require(_amount + totalSupply <= supplyCap, 'ERR_CAP');
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changePeriod();
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baseAmount = toBaseAmount(_amount);
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totalSupply += _amount;
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increaseBaseBalance(_beneficiary, baseAmount);
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emit Mint(msg.sender, _beneficiary, _amount);
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saveRedistributionSupply();
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return true;
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}
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// Deserializes the redistribution word
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// uint95(unused) | uint20(demurrageModifier) | uint36(participants) | uint72(value) | uint32(period)
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function toRedistribution(uint256 _participants, uint256 _demurrageModifierPpm, uint256 _value, uint256 _period) public pure returns(bytes32) {
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bytes32 redistribution;
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redistribution |= bytes32((_demurrageModifierPpm << shiftRedistributionDemurrage) & maskRedistributionDemurrage);
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redistribution |= bytes32((_value << shiftRedistributionValue) & maskRedistributionValue);
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redistribution |= bytes32(_period & maskRedistributionPeriod);
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return redistribution;
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}
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// Serializes the demurrage period part of the redistribution word
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function toRedistributionPeriod(bytes32 redistribution) public pure returns (uint256) {
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return uint256(redistribution) & maskRedistributionPeriod;
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}
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// Serializes the supply part of the redistribution word
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function toRedistributionSupply(bytes32 redistribution) public pure returns (uint256) {
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return (uint256(redistribution) & maskRedistributionValue) >> shiftRedistributionValue;
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}
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// Serializes the number of participants part of the redistribution word
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function toRedistributionDemurrageModifier(bytes32 redistribution) public pure returns (uint256) {
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return (uint256(redistribution) & maskRedistributionDemurrage) >> shiftRedistributionDemurrage;
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}
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// Client accessor to the redistributions array length
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function redistributionCount() public view returns (uint256) {
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return redistributions.length;
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}
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// Save the current total supply amount to the current redistribution period
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function saveRedistributionSupply() private returns (bool) {
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uint256 currentRedistribution;
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uint256 grownSupply;
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//grownSupply = growBy(totalSupply, 1);
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grownSupply = totalSupply;
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currentRedistribution = uint256(redistributions[redistributions.length-1]);
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currentRedistribution &= (~maskRedistributionValue);
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currentRedistribution |= (grownSupply << shiftRedistributionValue);
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redistributions[redistributions.length-1] = bytes32(currentRedistribution);
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return true;
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}
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// Get the demurrage period of the current block number
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function actualPeriod() public view returns (uint128) {
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return uint128((block.timestamp - periodStart) / periodDuration + 1);
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}
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// Add an entered demurrage period to the redistribution array
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function checkPeriod() private view returns (bytes32) {
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bytes32 lastRedistribution;
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uint256 currentPeriod;
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lastRedistribution = redistributions[redistributions.length-1];
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currentPeriod = this.actualPeriod();
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if (currentPeriod <= toRedistributionPeriod(lastRedistribution)) {
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return bytes32(0x00);
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}
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return lastRedistribution;
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}
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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 * 10000000000)); //(nanoDivider - ((resolutionFactor - _demurrageAmount) / nanoDivider));
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return difference / resolutionFactor;
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}
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function getDistributionFromRedistribution(bytes32 _redistribution) public returns (uint256) {
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uint256 redistributionSupply;
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uint256 redistributionDemurrage;
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redistributionSupply = toRedistributionSupply(_redistribution);
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redistributionDemurrage = toRedistributionDemurrageModifier(_redistribution);
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return getDistribution(redistributionSupply, redistributionDemurrage);
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}
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// Returns the amount sent to the sink address
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function applyDefaultRedistribution(bytes32 _redistribution) private returns (uint256) {
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uint256 unit;
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unit = getDistributionFromRedistribution(_redistribution);
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increaseBaseBalance(sinkAddress, toBaseAmount(unit));
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return unit;
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}
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// Calculate the time delta in whole minutes passed between given timestamp and current timestamp
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function getMinutesDelta(uint256 _lastTimestamp) public view returns (uint256) {
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return (block.timestamp - _lastTimestamp) / 60;
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}
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// Calculate and cache the demurrage value corresponding to the (period of the) time of the method call
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function applyDemurrage() public returns (bool) {
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//uint128 epochPeriodCount;
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uint256 periodCount;
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uint256 lastDemurrageAmount;
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//epochPeriodCount = actualPeriod();
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//periodCount = epochPeriodCount - demurragePeriod;
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periodCount = getMinutesDelta(demurrageTimestamp);
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if (periodCount == 0) {
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return false;
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}
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lastDemurrageAmount = demurrageAmount;
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demurrageAmount = uint128(decayBy(lastDemurrageAmount, periodCount));
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//demurragePeriod = epochPeriodCount;
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demurrageTimestamp = demurrageTimestamp + (periodCount * 60);
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emit Decayed(demurrageTimestamp, periodCount, lastDemurrageAmount, demurrageAmount);
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return true;
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}
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// Return timestamp of start of period threshold
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function getPeriodTimeDelta(uint256 _periodCount) public view returns (uint256) {
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return periodStart + (_periodCount * periodDuration);
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}
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// Amount of demurrage cycles inbetween the current timestamp and the given target time
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function demurrageCycles(uint256 _target) public view returns (uint256) {
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return (block.timestamp - _target) / 60;
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}
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// Recalculate the demurrage modifier for the new period
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function changePeriod() public returns (bool) {
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bytes32 currentRedistribution;
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bytes32 nextRedistribution;
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uint256 currentPeriod;
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uint256 currentDemurrageAmount;
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uint256 nextRedistributionDemurrage;
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uint256 demurrageCounts;
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uint256 periodTimestamp;
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uint256 nextPeriod;
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applyDemurrage();
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currentRedistribution = checkPeriod();
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if (currentRedistribution == bytes32(0x00)) {
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return false;
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}
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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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currentDemurrageAmount = demurrageAmount;
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demurrageCounts = demurrageCycles(periodTimestamp);
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if (demurrageCounts > 0) {
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nextRedistributionDemurrage = growBy(currentDemurrageAmount, demurrageCounts);
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} else {
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nextRedistributionDemurrage = currentDemurrageAmount;
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}
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nextRedistribution = toRedistribution(0, nextRedistributionDemurrage, totalSupply, nextPeriod);
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redistributions.push(nextRedistribution);
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applyDefaultRedistribution(nextRedistribution);
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emit Period(nextPeriod);
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return true;
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}
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// Reverse a value reduced by demurrage by the given period to its original value
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function growBy(uint256 _value, uint256 _period) public view returns (uint256) {
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uint256 valueFactor;
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uint256 truncatedTaxLevel;
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valueFactor = growthResolutionFactor;
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truncatedTaxLevel = taxLevel / nanoDivider;
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for (uint256 i = 0; i < _period; i++) {
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valueFactor = valueFactor + ((valueFactor * truncatedTaxLevel) / growthResolutionFactor);
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}
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return (valueFactor * _value) / growthResolutionFactor;
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}
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// Calculate a value reduced by demurrage by the given period
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function decayBy(uint256 _value, uint256 _period) public view returns (uint256) {
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uint256 valueFactor;
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uint256 truncatedTaxLevel;
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valueFactor = growthResolutionFactor;
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truncatedTaxLevel = taxLevel / nanoDivider;
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for (uint256 i = 0; i < _period; i++) {
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valueFactor = valueFactor - ((valueFactor * truncatedTaxLevel) / growthResolutionFactor);
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}
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return (valueFactor * _value) / growthResolutionFactor;
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}
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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 * 10000000000);
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}
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// Implements ERC20, triggers tax and/or redistribution
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function approve(address _spender, uint256 _value) public returns (bool) {
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uint256 baseValue;
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changePeriod();
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baseValue = toBaseAmount(_value);
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allowance[msg.sender][_spender] += baseValue;
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emit Approval(msg.sender, _spender, _value);
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return true;
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}
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// Implements ERC20, triggers tax and/or redistribution
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function transfer(address _to, uint256 _value) public returns (bool) {
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uint256 baseValue;
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bool result;
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changePeriod();
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baseValue = toBaseAmount(_value);
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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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}
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// Implements ERC20, triggers tax and/or redistribution
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function transferFrom(address _from, address _to, uint256 _value) public returns (bool) {
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uint256 baseValue;
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bool result;
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changePeriod();
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baseValue = toBaseAmount(_value);
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require(allowance[_from][msg.sender] >= 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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}
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// ERC20 transfer backend for transfer, transferFrom
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function transferBase(address _from, address _to, uint256 _value) private returns (bool) {
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uint256 period;
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decreaseBaseBalance(_from, _value);
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increaseBaseBalance(_to, _value);
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//period = actualPeriod();
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return true;
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}
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// Implements EIP173
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function transferOwnership(address _newOwner) public returns (bool) {
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require(msg.sender == owner);
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newOwner = _newOwner;
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}
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// Implements OwnedAccepter
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function acceptOwnership() public returns (bool) {
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address oldOwner;
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require(msg.sender == newOwner);
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oldOwner = owner;
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owner = newOwner;
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newOwner = address(0);
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emit OwnershipTransferred(oldOwner, owner);
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}
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// Implements EIP165
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function supportsInterface(bytes4 _sum) public pure returns (bool) {
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if (_sum == 0xc6bb4b70) { // ERC20
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return true;
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}
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if (_sum == 0x449a52f8) { // Minter
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return true;
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}
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if (_sum == 0x01ffc9a7) { // EIP165
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return true;
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}
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if (_sum == 0x9493f8b2) { // EIP173
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return true;
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}
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if (_sum == 0x37a47be4) { // OwnedAccepter
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return true;
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}
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return false;
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}
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}
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