Datasets:

3it
/

bitaudit_verification_dataset


	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);
	}
	}