Kanel42_token/code/test/Kanel42_token.t.sol

// SPDX-License-Identifier: MIT
pragma solidity 0.8.28;

import "../../lib/forge-std/src/Test.sol";
import "../Kanel42_token.sol";

contract Kanel42TokenTest is Test {
    Kanel42_token public token;

    // This function runs before each test
    function setUp() public {
        token = new Kanel42_token();
    }

    // Test the initial supply of the token
    function testInitialSupply() public {
        assertEq(token.totalSupply(), 8000000000);
		assertEq(token.totalMinted(), 0);
    }

    // Test minting tokens
    function testMint() public {
        uint256 initialBalance = token.balanceOf(address(this));
        uint256 mintAmount = 1000000; // Mint 1 token (considering 6 decimals)

        // Mint tokens by sending ether
        vm.deal(address(this), 0.01 ether);
        token.mint{ value: 0.01 ether }();

        uint256 finalBalance = token.balanceOf(address(this));
        assertEq(finalBalance - initialBalance, mintAmount);
    }

    // // Test transferring tokens
    // function testTransfer() public {
    //     address sender = address(this);
    //     address recipient = address(1);
    //     uint256 transferAmount = 1000000; // Transfer 1 token (considering 6 decimals)
    //
    //     // Mint tokens to the sender
    //     vm.deal(sender, 0.01 ether);
    //     token.mint{ value: 0.01 ether }();
    //
    //     // Transfer tokens to the recipient
    //     token.transfer(recipient, transferAmount);
    //
    //     assertEq(token.balanceOf(recipient), transferAmount);
    // }
    //
    // // Test burning tokens
    // function testBurn() public {
    //     uint256 initialBalance = token.balanceOf(address(this));
    //     uint256 burnAmount = 1000000; // Burn 1 token (considering 6 decimals)
    //
    //     // Mint tokens to have something to burn
    //     vm.deal(address(this), 0.01 ether);
    //     token.mint{ value: 0.01 ether }();
    //
    //     // Burn tokens
    //     token.burn(burnAmount);
    //
    //     uint256 finalBalance = token.balanceOf(address(this));
    //     assertEq(initialBalance, finalBalance + burnAmount);
    // }
    //
    // // Test approval and transferFrom
    // function testApproveAndTransferFrom() public {
    //     address owner = address(this);
    //     address spender = address(1);
    //     address recipient = address(2);
    //     uint256 approveAmount = 1000000; // Approve 1 token (considering 6 decimals)
    //
    //     // Mint tokens to the owner
    //     vm.deal(owner, 0.01 ether);
    //     token.mint{ value: 0.01 ether }();
    //
    //     // Approve spender to spend tokens on behalf of owner
    //     token.approve(spender, approveAmount);
    //
    //     // Transfer tokens from owner to recipient using transferFrom
    //     vm.prank(spender);
    //     token.transferFrom(owner, recipient, approveAmount);
    //
    //     assertEq(token.balanceOf(recipient), approveAmount);
    // }
}