Itchy and Scratchy Ether: How to create your own Cryptocurrency on top of Ethereum

in #ethereum7 years ago (edited)

Remember Itchy and Scratchy money?

With the recent major crash of Ethereum and other Cryptocurrencies let's at least enjoy ourselves and build our own Cryptocurrency token. Let us create something like regular ETH, but fun. To avoid copyright infringement we just going to call it I. & S. Ether. Of course, this does not stand for "Itchy and Scratchy" (I just used this in the title to shamelessly lure you in), but maybe for "innovative and shiny", or something along these lines.

How to build your own ERC20 Token

Let us build this nice I. & S. Ether token with the Solidity programming language. We will go for the most simple design possible.

We have to agree on a few parameters at first. We will allow an exchange rate of 0.001 ETH for 1 of our tokens. So by the time of writing (and not another crash in the meantime), Homer would have bought about 1000 I. & S. Ether for eleven hundred Dollars. However, we are less obnoxious and mean as Itchy and Scratchy Land. Although probably no one is going to accept our I. & S. Ether either, we do allow the exchange of our token back into regular ETH without any loss or premium (except gas costs, of course, but this is out of our control). So buying our token has no associated risk because you can easily redeem the initial ETH investment.

Moreover, usually people like scarcity (remember the 21 million Bitcoin?), so let us make our token super scarce. There will only be 42,000 I. & S. Ether, no more and no less!

We need a new Ethereum smart contract that manages our new shiny I. & S. ETH for us. This contract needs to follow a particular design pattern and interface called ERC20 standard. If we obey this standard, other software can make use of the token such as the MetaMask wallet or we could even trade it on an exchange like EtherDelta.

So what does this standard demand from us?

  • name: The name of our token, i.e. I. & S. Ether.

  • symbol: The ticker symbol for our token, let us choose ISE.

  • decimals: The number of decimals which our token supports. This is where it already gets a bit tricky. From now on we need to calculate everything in the smallest unit of our token. If we pick 9 decimals (for comparison Bitcoin has 8 and Ethereum 18) and we want to have 42,000 tokens overall, we will in fact have 42,000,000,000,000. The first 9 zeros from the right are our decimal places.

  • totalSupply(): This function needs to return how many of our tokens exist. So for ISE this will give 42,000,000,000,000. Remember, this is in fact 42,000 because we support 9 decimals.

  • balanceOf(tokenOwner): This function returns the balance of each and every individual token owner. So this is usually 0 unless you purchased some tokens from our contract.

  • transfer(to, amount): This function can be called to transfer tokens to other people. You do not have a birthday gift for your partner, yet? How about some I. & S. Ether? It's fun!

  • Moreover, there are some slightly more advanced functions like allowance, approve, and transferFrom which we need to implement such that our token can be handled by exchanges. These methods will allow the exchanges to send our tokens on our behalf in case a trade is executed.

I will spare you the implementation details of these functions. In fact, you can simply copy and paste them from this ERC20 standard. Moreover, the entire source code of this token is also available on my Github profile.

The I. & S. Smart Contract

Let us focus on the more interesting customized part of our token. Let us start with some new constants that we introduce. These are the unit, which is simply 10^decimals, and the price, i.e. the exchange rate from ETH to our token:

// unit = 10**decimals
uint256 public constant unit = 1000000000;

// The ETH to ISE exchange rate
uint256 public constant price = 1 finney / unit;

Note, finney is a convenient Solidity constant meaning 0.001 ETH, i.e. 1000 finney are 1 ETH. Hence, 1 ISE token costs 0.001 ETH. Still with me? Good!

Next, let us take a look at the initialization of our ISE token. In the constructor we simply create 42,000 tokens out of thin air. Yeah, just like that, no mining, no annoying proof-of-work, it's magic! Ok, the miners will have to include our contract into the Blockchain, so some mining will be involved, but let us not get hung up on such technicalities.

After the contract is deployed, the initial holder of our new tokens is the ISE smart contract itself (this):

function IaSEther() public{
    // very scarce 42k coins:
    maxSupply = 42000 * unit;
    balances[this] = maxSupply;
}

Buy some of our fun I. & S. Ether

As aforementioned, we want to be able to flawlessly exchange regular ETH for our fun I. & S. Ether and back. To buy tokens from our contract, we implement the following function:

function buy() public payable{
    // compute the number of tokens to send back
    uint256 amount = msg.value / price;
    // ship the tokens to the buyer
    require(executeTransfer(this, msg.sender, amount));
}

Of course, the number of tokens someone buys is simple the ETH sent (msg.value) divided by our constant price. The trade is implemented as a normal token transfer from the contract to the buyer. Accordingly, the executeTransfer is just performing the token exchange according to the ERC20 standard:

// Internal function to execute transfer
function executeTransfer(address _from, address _to, uint256 _amount) internal returns (bool){
    if (balances[_from] >= _amount && _amount > 0
            && balances[_to] + _amount > balances[_to]) {
        balances[_from] -= _amount;
        balances[_to] += _amount;
        Transfer(_from, _to, _amount);
        return true;
    } else {
        return false;
    }
}

This executeTransfer function simply tests that the sender from_ has an appropriate balance, checks for overflows, and then updates the balances via balances[_from] -= _amount (take tokens from sender) and balances[_to] += _amount (add tokens to receiver).

Moreover, people should not be required to use the buy function to get our tokens. It should be sufficient to just send ETH to our contract to get fun ISE in return. The function to receive ETH is called the fallback function. However, in terms of Solidity code, the function does not have a name and has just to call the buy method from before:

function () public payable{
    buy();
}

Sell our fun I. & S. Ether

Next, we want to allow people to exchange their tokens back to ETH for the same price. Therefore, we need to subclass the transfer function like so:

function transfer(address _to, uint256 _amount) public returns (bool){
    // first recevie tokens by the seller
    bool success = super.transfer(_to, _amount);
    // send the ETH back to the seller
    if ((_to == address(this)) && success){
        uint256 value = _amount * price;
        msg.sender.transfer(value);
    }
    return success;

}

Basically, this executes a normal transfer. However, if the receiver of tokens is our smart contract itself (this), people receive stored ETH in return (msg.sender.transfer(value)).
The original transfer in the parent class is straightforward:

// Transfer the _amount from msg.sender to _to account
function transfer(address _to, uint256 _amount) public returns (bool) {
    return executeTransfer(msg.sender, _to, _amount);
}

Deploy and Interact with the Contract

Finally, we just need to deploy the contract to the Blockchain. I just did that and deployed the contract to the Ropsten testnet using the Remix Solidity environment. You can find the contract on the test network at 0x4e99cb0340cd0a3cb30de4d14e624d42dc673d18. If you want to send some test Ether to the contract, you can claim some from this faucet for free.

As a reminder, you can find the entire source code in my Github profile.

That's about it. So have fun with your new ISE token (or your own copy-and-pasted custom version) and happy HODLing!

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