pragma solidity ^0.4.24; library SafeMath { function mul(uint a, uint b) internal pure returns (uint c) { if (a == 0) { return 0; } c = a * b; assert(c / a == b); return c; } function div(uint a, uint b) internal pure returns (uint) { return a / b; } function mod(uint a, uint b) internal pure returns (uint) { return a % b; } function sub(uint a, uint b) internal pure returns (uint) { assert(b <= a); return a - b; } function add(uint a, uint b) internal pure returns (uint c) { c = a + b; assert(c >= a); return c; } } contract Dividends { using SafeMath for *; uint private constant FIXED_POINT = 1000000000000000000; struct Scheme { uint value; uint shares; uint mask; } struct Vault { uint value; uint shares; uint mask; } mapping (uint => mapping (address => Vault)) private vaultOfAddress; mapping (uint => Scheme) private schemeOfId; function buyShares (uint _schemeId, address _owner, uint _shares, uint _value) internal { require(_owner != address(0)); require(_shares > 0 && _value > 0); uint value = _value.mul(FIXED_POINT); Scheme storage scheme = schemeOfId[_schemeId]; scheme.value = scheme.value.add(_value); scheme.shares = scheme.shares.add(_shares); require(value > scheme.shares); uint pps = value.div(scheme.shares); Vault storage vault = vaultOfAddress[_schemeId][_owner]; vault.shares = vault.shares.add(_shares); vault.mask = vault.mask.add(scheme.mask.mul(_shares)); vault.value = vault.value.add(value.sub(pps.mul(scheme.shares))); scheme.mask = scheme.mask.add(pps); } function flushVault (uint _schemeId, address _owner) internal { uint gains = gainsOfVault(_schemeId, _owner); if (gains > 0) { Vault storage vault = vaultOfAddress[_schemeId][_owner]; vault.value = vault.value.add(gains); vault.mask = vault.mask.add(gains); } } function withdrawVault (uint _schemeId, address _owner) internal returns (uint) { flushVault(_schemeId, _owner); Vault storage vault = vaultOfAddress[_schemeId][_owner]; uint payout = vault.value.div(FIXED_POINT); if (payout > 0) { vault.value = 0; } return payout; } function creditVault (uint _schemeId, address _owner, uint _value) internal { Vault storage vault = vaultOfAddress[_schemeId][_owner]; vault.value = vault.value.add(_value.mul(FIXED_POINT)); } function gainsOfVault (uint _schemeId, address _owner) internal view returns (uint) { Scheme storage scheme = schemeOfId[_schemeId]; Vault storage vault = vaultOfAddress[_schemeId][_owner]; if (vault.shares == 0) { return 0; } return scheme.mask.mul(vault.shares).sub(vault.mask); } function valueOfVault (uint _schemeId, address _owner) internal view returns (uint) { Vault storage vault = vaultOfAddress[_schemeId][_owner]; return vault.value; } function balanceOfVault (uint _schemeId, address _owner) internal view returns (uint) { Vault storage vault = vaultOfAddress[_schemeId][_owner]; uint total = vault.value.add(gainsOfVault(_schemeId, _owner)); uint balance = total.div(FIXED_POINT); return balance; } function sharesOfVault (uint _schemeId, address _owner) internal view returns (uint) { Vault storage vault = vaultOfAddress[_schemeId][_owner]; return vault.shares; } function valueOfScheme (uint _schemeId) internal view returns (uint) { return schemeOfId[_schemeId].value; } function sharesOfScheme (uint _schemeId) internal view returns (uint) { return schemeOfId[_schemeId].shares; } } library Utils { using SafeMath for uint; uint private constant LAST_COUNTRY = 195; function regularTicketPrice () internal pure returns (uint) { return 100000000000000; } function goldenTicketPrice (uint _x) internal pure returns (uint) { uint price = _x.mul(_x).div(2168819140000000000000000).add(100000000000000).add(_x.div(100000)); return price < regularTicketPrice() ? regularTicketPrice() : price; } function ticketsForWithExcess (uint _value) internal pure returns (uint, uint) { uint tickets = _value.div(regularTicketPrice()); uint excess = _value.sub(tickets.mul(regularTicketPrice())); return (tickets, excess); } function percentageOf (uint _value, uint _p) internal pure returns (uint) { return _value.mul(_p).div(100); } function validReferralCode (string _code) internal pure returns (bool) { bytes memory b = bytes(_code); if (b.length < 3) { return false; } for (uint i = 0; i < b.length; i++) { bytes1 c = b[i]; if ( !(c >= 0x30 && c <= 0x39) && !(c >= 0x41 && c <= 0x5A) && !(c >= 0x61 && c <= 0x7A) && !(c == 0x2D) ) { return false; } } return true; } function validNick (string _nick) internal pure returns (bool) { return bytes(_nick).length > 3; } function validCountryId (uint _countryId) internal pure returns (bool) { return _countryId > 0 && _countryId <= LAST_COUNTRY; } } contract Events { event Started ( uint _time ); event Bought ( address indexed _player, address indexed _referral, uint _countryId, uint _tickets, uint _value, uint _excess ); event Promoted ( address indexed _player, uint _goldenTickets, uint _endTime ); event Withdrew ( address indexed _player, uint _amount ); event Registered ( string _code, address indexed _referral ); event Won ( address indexed _winner, uint _pot ); } contract Constants { uint internal constant MAIN_SCHEME = 1337; uint internal constant DEFAULT_COUNTRY = 1; uint internal constant SET_NICK_FEE = 0.01 ether; uint internal constant REFERRAL_REGISTRATION_FEE = 0.01 ether; uint internal constant TO_DIVIDENDS = 42; uint internal constant TO_REFERRAL = 10; uint internal constant TO_DEVELOPERS = 4; uint internal constant TO_COUNTRY = 12; } contract State is Constants { address internal addressOfOwner; uint internal maxTime = 0; uint internal addedTime = 0; uint internal totalPot = 0; uint internal startTime = 0; uint internal endTime = 0; bool internal potWithdrawn = false; address internal addressOfCaptain; struct Info { address referral; uint countryId; uint withdrawn; string nick; } mapping (address => Info) internal infoOfAddress; mapping (address => string[]) internal codesOfAddress; mapping (string => address) internal addressOfCode; modifier restricted () { require(msg.sender == addressOfOwner); _; } modifier active () { require(startTime > 0); require(block.timestamp < endTime); require(!potWithdrawn); _; } modifier player () { require(infoOfAddress[msg.sender].countryId > 0); _; } } contract Core is Events, State, Dividends {} contract ExternalView is Core { function totalInfo () external view returns (bool, bool, address, uint, uint, uint, uint, uint, uint, address) { return ( startTime > 0, block.timestamp >= endTime, addressOfCaptain, totalPot, endTime, sharesOfScheme(MAIN_SCHEME), valueOfScheme(MAIN_SCHEME), maxTime, addedTime, addressOfOwner ); } function countryInfo (uint _countryId) external view returns (uint, uint) { return ( sharesOfScheme(_countryId), valueOfScheme(_countryId) ); } function playerInfo (address _player) external view returns (uint, uint, uint, address, uint, uint, string) { Info storage info = infoOfAddress[_player]; return ( sharesOfVault(MAIN_SCHEME, _player), balanceOfVault(MAIN_SCHEME, _player), balanceOfVault(info.countryId, _player), info.referral, info.countryId, info.withdrawn, info.nick ); } function numberOfReferralCodes (address _player) external view returns (uint) { return codesOfAddress[_player].length; } function referralCodeAt (address _player, uint i) external view returns (string) { return codesOfAddress[_player][i]; } function codeToAddress (string _code) external view returns (address) { return addressOfCode[_code]; } function goldenTicketPrice (uint _x) external pure returns (uint) { return Utils.goldenTicketPrice(_x); } } contract Internal is Core { function _registerReferral (string _code, address _referral) internal { require(Utils.validReferralCode(_code)); require(addressOfCode[_code] == address(0)); addressOfCode[_code] = _referral; codesOfAddress[_referral].push(_code); emit Registered(_code, _referral); } } contract WinnerWinner is Core, Internal, ExternalView { using SafeMath for *; constructor () public { addressOfOwner = msg.sender; } function () public payable { buy(addressOfOwner, DEFAULT_COUNTRY); } function start (uint _maxTime, uint _addedTime) public restricted { require(startTime == 0); require(_maxTime > 0 && _addedTime > 0); require(_maxTime > _addedTime); maxTime = _maxTime; addedTime = _addedTime; startTime = block.timestamp; endTime = startTime + maxTime; addressOfCaptain = addressOfOwner; _registerReferral("owner", addressOfOwner); emit Started(startTime); } function buy (address _referral, uint _countryId) public payable active { require(msg.value >= Utils.regularTicketPrice()); require(msg.value <= 100000 ether); require(codesOfAddress[_referral].length > 0); require(_countryId != MAIN_SCHEME); require(Utils.validCountryId(_countryId)); (uint tickets, uint excess) = Utils.ticketsForWithExcess(msg.value); uint value = msg.value.sub(excess); require(tickets > 0); require(value.add(excess) == msg.value); Info storage info = infoOfAddress[msg.sender]; if (info.countryId == 0) { info.referral = _referral; info.countryId = _countryId; } uint vdivs = Utils.percentageOf(value, TO_DIVIDENDS); uint vreferral = Utils.percentageOf(value, TO_REFERRAL); uint vdevs = Utils.percentageOf(value, TO_DEVELOPERS); uint vcountry = Utils.percentageOf(value, TO_COUNTRY); uint vpot = value.sub(vdivs).sub(vreferral).sub(vdevs).sub(vcountry); assert(vdivs.add(vreferral).add(vdevs).add(vcountry).add(vpot) == value); buyShares(MAIN_SCHEME, msg.sender, tickets, vdivs); buyShares(info.countryId, msg.sender, tickets, vcountry); creditVault(MAIN_SCHEME, info.referral, vreferral); creditVault(MAIN_SCHEME, addressOfOwner, vdevs); if (excess > 0) { creditVault(MAIN_SCHEME, msg.sender, excess); } uint goldenTickets = value.div(Utils.goldenTicketPrice(totalPot)); if (goldenTickets > 0) { endTime = endTime.add(goldenTickets.mul(addedTime)) > block.timestamp.add(maxTime) ? block.timestamp.add(maxTime) : endTime.add(goldenTickets.mul(addedTime)); addressOfCaptain = msg.sender; emit Promoted(addressOfCaptain, goldenTickets, endTime); } totalPot = totalPot.add(vpot); emit Bought(msg.sender, info.referral, info.countryId, tickets, value, excess); } function setNick (string _nick) public payable { require(msg.value == SET_NICK_FEE); require(Utils.validNick(_nick)); infoOfAddress[msg.sender].nick = _nick; creditVault(MAIN_SCHEME, addressOfOwner, msg.value); } function registerCode (string _code) public payable { require(startTime > 0); require(msg.value == REFERRAL_REGISTRATION_FEE); _registerReferral(_code, msg.sender); creditVault(MAIN_SCHEME, addressOfOwner, msg.value); } function giftCode (string _code, address _referral) public restricted { _registerReferral(_code, _referral); } function withdraw () public { Info storage info = infoOfAddress[msg.sender]; uint payout = withdrawVault(MAIN_SCHEME, msg.sender); if (Utils.validCountryId(info.countryId)) { payout = payout.add(withdrawVault(info.countryId, msg.sender)); } if (payout > 0) { info.withdrawn = info.withdrawn.add(payout); msg.sender.transfer(payout); emit Withdrew(msg.sender, payout); } } function withdrawPot () public player { require(startTime > 0); require(block.timestamp > (endTime + 10 minutes)); require(!potWithdrawn); require(totalPot > 0); require(addressOfCaptain == msg.sender); uint payout = totalPot; totalPot = 0; potWithdrawn = true; addressOfCaptain.transfer(payout); emit Won(msg.sender, payout); } }