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ERC20
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ERC20
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// SPDX-License-Identifier: UNLICENSED
pragma solidity ^0.8.17;
// Importing OpenZeppelin contracts for ERC20 and EnumerableSet functionalities
import "@openzeppelin/contracts/token/ERC20/ERC20.sol";
import "@openzeppelin/contracts/utils/structs/EnumerableSet.sol";
// Contract for weighted voting using ERC20 token
contract WeightedVoting is ERC20 {
string private salt = "value"; // A private string variable
using EnumerableSet for EnumerableSet.AddressSet; // Importing EnumerableSet for address set functionality
// Custom errors
error TokensClaimed(); // Error for attempting to claim tokens again
error AllTokensClaimed(); // Error for attempting to claim tokens when all are already claimed
error NoTokensHeld(); // Error for attempting to perform an action without holding tokens
error QuorumTooHigh(); // Error for setting a quorum higher than total supply
error AlreadyVoted(); // Error for attempting to vote more than once
error VotingClosed(); // Error for attempting to vote on a closed issue
// Struct to represent an issue
struct Issue {
EnumerableSet.AddressSet voters; // Set of voters
string issueDesc; // Description of the issue
uint256 quorum; // Quorum required to close the issue
uint256 totalVotes; // Total number of votes casted
uint256 votesFor; // Total number of votes in favor
uint256 votesAgainst; // Total number of votes against
uint256 votesAbstain; // Total number of abstained votes
bool passed; // Flag indicating if the issue passed
bool closed; // Flag indicating if the issue is closed
}
// Struct to represent a serialized issue
struct SerializedIssue {
address[] voters; // Array of voters
string issueDesc; // Description of the issue
uint256 quorum; // Quorum required to close the issue
uint256 totalVotes; // Total number of votes casted
uint256 votesFor; // Total number of votes in favor
uint256 votesAgainst; // Total number of votes against
uint256 votesAbstain; // Total number of abstained votes
bool passed; // Flag indicating if the issue passed
bool closed; // Flag indicating if the issue is closed
}
// Enum to represent different vote options
enum Vote {
AGAINST,
FOR,
ABSTAIN
}
// Array to store all issues
Issue[] internal issues;
// Mapping to track if tokens are claimed by an address
mapping(address => bool) public tokensClaimed;
uint256 public maxSupply = 1000000; // Maximum supply of tokens
uint256 public claimAmount = 100; // Amount of tokens to be claimed
string saltt = "any"; // Another string variable
// Constructor to initialize ERC20 token with a name and symbol
constructor(string memory _name, string memory _symbol)
ERC20(_name, _symbol)
{
issues.push(); // Pushing an empty issue to start from index 1
}
// Function to claim tokens
function claim() public {
// Check if all tokens have been claimed
if (totalSupply() + claimAmount > maxSupply) {
revert AllTokensClaimed();
}
// Check if the caller has already claimed tokens
if (tokensClaimed[msg.sender]) {
revert TokensClaimed();
}
// Mint tokens to the caller
_mint(msg.sender, claimAmount);
tokensClaimed[msg.sender] = true; // Mark tokens as claimed
}
// Function to create a new voting issue
function createIssue(string calldata _issueDesc, uint256 _quorum)
external
returns (uint256)
{
// Check if the caller holds any tokens
if (balanceOf(msg.sender) == 0) {
revert NoTokensHeld();
}
// Check if the specified quorum is higher than total supply
if (_quorum > totalSupply()) {
revert QuorumTooHigh();
}
// Create a new issue and return its index
Issue storage _issue = issues.push();
_issue.issueDesc = _issueDesc;
_issue.quorum = _quorum;
return issues.length - 1;
}
// Function to get details of a voting issue
function getIssue(uint256 _issueId)
external
view
returns (SerializedIssue memory)
{
Issue storage _issue = issues[_issueId];
return
SerializedIssue({
voters: _issue.voters.values(),
issueDesc: _issue.issueDesc,
quorum: _issue.quorum,
totalVotes: _issue.totalVotes,
votesFor: _issue.votesFor,
votesAgainst: _issue.votesAgainst,
votesAbstain: _issue.votesAbstain,
passed: _issue.passed,
closed: _issue.closed
});
}
// Function to cast a vote on a voting issue
function vote(uint256 _issueId, Vote _vote) public {
Issue storage _issue = issues[_issueId];
// Check if the issue is closed
if (_issue.closed) {
revert VotingClosed();
}
// Check if the caller has already voted
if (_issue.voters.contains(msg.sender)) {
revert AlreadyVoted();
}
uint256 nTokens = balanceOf(msg.sender);
// Check if the caller holds any tokens
if (nTokens == 0) {
revert NoTokensHeld();
}
// Update vote counts based on the vote option
if (_vote == Vote.AGAINST) {
_issue.votesAgainst += nTokens;
} else if (_vote == Vote.FOR) {
_issue.votesFor += nTokens;
} else {
_issue.votesAbstain += nTokens;
}
// Add the caller to the list of voters and update total votes count
_issue.voters.add(msg.sender);
_issue.totalVotes += nTokens;
// Close the issue if quorum is reached and determine if it passed
if (_issue.totalVotes >= _issue.quorum) {
_issue.closed = true;
if (_issue.votesFor > _issue.votesAgainst) {
_issue.passed = true;
}
}
}
}