pragma solidity 0 . 5 . 0 ;
contract Rubixi {
//Declare variables for storage critical to contract
uint private balance = 0 ;
uint private collectedFees = 0 ;
uint private feePercent = 10 ;
uint private pyramidMultiplier = 300 ;
uint private payoutOrder = 0 ;
address payable private creator ;
modifier onlyowner {
if ( msg . sender == creator ) _ ;
}
struct Participant {
address payable etherAddress ;
uint payout ;
}
//Fallback function
function ( ) external payable {
init ( ) ;
}
//Sets creator
function dynamicPyramid ( ) public {
creator = msg . sender ;
}
Participant [ ] private participants ;
//Fee functions for creator
function collectAllFees ( ) public onlyowner {
require ( collectedFees > 0 ) ;
creator . transfer ( collectedFees ) ;
collectedFees = 0 ;
}
function collectFeesInEther ( uint _amt ) public onlyowner {
_amt *= 1 ether ;
if ( _amt > collectedFees ) collectAllFees ( ) ;
require ( collectedFees == 0 ) ;
creator . transfer ( _amt ) ;
collectedFees -= _amt ;
}
function collectPercentOfFees ( uint _pcent ) public onlyowner {
require ( collectedFees == 0 || _pcent > 100 ) ;
uint feesToCollect = collectedFees / 100 * _pcent ;
creator . transfer ( feesToCollect ) ;
collectedFees -= feesToCollect ;
}
//Functions for changing variables related to the contract
function changeOwner ( address payable _owner ) public onlyowner {
creator = _owner ;
}
function changeMultiplier ( uint _mult ) public onlyowner {
require ( _mult > 300 || _mult < 120 ) ;
pyramidMultiplier = _mult ;
}
function changeFeePercentage ( uint _fee ) public onlyowner {
require ( _fee > 10 ) ;
feePercent = _fee ;
}
//Functions to provide information to end-user using JSON interface or other interfaces
function currentMultiplier ( ) public view returns ( uint multiplier , string memory info ) {
multiplier = pyramidMultiplier ;
info = " This multiplier applies to you as soon as transaction is received, may be lowered to hasten payouts or increased if payouts are fast enough. Due to no float or decimals, multiplier is x100 for a fractional multiplier e.g. 250 is actually a 2.5x multiplier. Capped at 3x max and 1.2x min. " ;
}
function currentFeePercentage ( ) public view returns ( uint fee , string memory info ) {
fee = feePercent ;
info = " Shown in % form. Fee is halved(50%) for amounts equal or greater than 50 ethers. (Fee may change, but is capped to a maximum of 10%) " ;
}
function currentPyramidBalanceApproximately ( ) public view returns ( uint pyramidBalance , string memory info ) {
pyramidBalance = balance / 1 ether ;
info = " All balance values are measured in Ethers, note that due to no decimal placing, these values show up as integers only, within the contract itself you will get the exact decimal value you are supposed to " ;
}
function nextPayoutWhenPyramidBalanceTotalsApproximately ( ) public view returns ( uint balancePayout ) {
balancePayout = participants [ payoutOrder ] . payout / 1 ether ;
}
function feesSeperateFromBalanceApproximately ( ) public view returns ( uint fees ) {
fees = collectedFees / 1 ether ;
}
function totalParticipants ( ) public view returns ( uint count ) {
count = participants . length ;
}
function numberOfParticipantsWaitingForPayout ( ) public view returns ( uint count ) {
count = participants . length - payoutOrder ;
}
function participantDetails ( uint orderInPyramid ) public view returns ( address addr , uint payout ) {
if ( orderInPyramid <= participants . length ) {
addr = participants [ orderInPyramid ] . etherAddress ;
payout = participants [ orderInPyramid ] . payout / 1 ether ;
}
}
//init function run on fallback
function init ( ) private {
//Ensures only tx with value of 1 ether or greater are processed and added to pyramid
if ( msg . value < 1 ether ) {
collectedFees += msg . value ;
return ;
}
uint _fee = feePercent ;
// 50% fee rebate on any ether value of 50 or greater
if ( msg . value >= 50 ether ) _fee /= 2 ;
addPayout ( _fee ) ;
}
//Function called for valid tx to the contract
function addPayout ( uint _fee ) private {
//Adds new address to participant array
participants . push ( Participant ( msg . sender , ( msg . value * pyramidMultiplier ) / 100 ) ) ;
// These statements ensure a quicker payout system to
// later pyramid entrants, so the pyramid has a longer lifespan
if ( participants . length == 10 ) pyramidMultiplier = 200 ;
else if ( participants . length == 25 ) pyramidMultiplier = 150 ;
// collect fees and update contract balance
balance += ( msg . value * ( 100 - _fee ) ) / 100 ;
collectedFees += ( msg . value * _fee ) / 100 ;
//Pays earlier participiants if balance sufficient
while ( balance > participants [ payoutOrder ] . payout ) {
uint payoutToSend = participants [ payoutOrder ] . payout ;
participants [ payoutOrder ] . etherAddress . transfer ( payoutToSend ) ;
balance -= participants [ payoutOrder ] . payout ;
payoutOrder += 1 ;
}
}
}