Your First Coin
This tutorial introduces how you can compile, deploy, and mint your own coin, named MoonCoin.
Step 1: Pick an SDK
Install your preferred SDK from the below list:
Step 2: Install the CLI
Install the precompiled binary for the Aptos CLI.
Step 3: Run the example
Clone the aptos-ts-sdk
repo and build it:
git clone https://github.com/aptos-labs/aptos-ts-sdk.git
cd aptos-ts-sdk
pnpm install
pnpm build
Navigate to the TypeScript examples directory:
cd examples/typescript/
Install the necessary dependencies:
pnpm install
Run the TypeScript your_coin
example:
pnpm run your_coin
The application will complete, printing:
Bob's initial MoonCoin balance: 0.
Alice mints herself 100 MoonCoin.
Alice transfers 100 MoonCoin to Bob.
Bob's updated MoonCoin balance: 100.
Step 4: MoonCoin in depth
Step 4.1: Building and publishing the MoonCoin package
Move contracts are effectively a set of Move modules known as a package. When deploying or upgrading a new package, the compiler must be invoked with --save-metadata
to publish the package. In the case of MoonCoin, the following output files are critical:
build/Examples/package-metadata.bcs
: Contains the metadata associated with the package.build/Examples/bytecode_modules/moon_coin.mv
: Contains the bytecode for themoon_coin.move
module.
These are read by the example and published to the Aptos blockchain:
In the TypeScript example, we use aptos move build-publish-payload
command to compile and build the module.
That command builds the build
folder that contains the package-metadata.bcs
and the bytecode for the moon_coin.mv
module. The command also builds a publication transaction payload and stores it in a JSON output file that we can later read from to get the metadataBytes
and byteCode
to publish the contract to chain with.
Compile the package:
export function compilePackage(
packageDir: string,
outputFile: string,
namedAddresses: Array<{ name: string; address: AccountAddress }>,
) {
const addressArg = namedAddresses
.map(({ name, address }) => `${name}=${address}`)
.join(" ");
// Assume-yes automatically overwrites the previous compiled version, only do this if you are sure you want to overwrite the previous version.
const compileCommand = `aptos move build-publish-payload --json-output-file ${outputFile} --package-dir ${packageDir} --named-addresses ${addressArg} --assume-yes`;
execSync(compileCommand);
}
compilePackage("move/moonCoin", "move/moonCoin/moonCoin.json", [
{ name: "MoonCoin", address: alice.accountAddress },
]);
Publish the package to chain:
export function getPackageBytesToPublish(filePath: string) {
// current working directory - the root folder of this repo
const cwd = process.cwd();
// target directory - current working directory + filePath (filePath JSON file is generated with the previous, compilePackage, CLI command)
const modulePath = path.join(cwd, filePath);
const jsonData = JSON.parse(fs.readFileSync(modulePath, "utf8"));
const metadataBytes = jsonData.args[0].value;
const byteCode = jsonData.args[1].value;
return { metadataBytes, byteCode };
}
const { metadataBytes, byteCode } = getPackageBytesToPublish(
"move/moonCoin/moonCoin.json",
);
// Publish MoonCoin package to chain
const transaction = await aptos.publishPackageTransaction({
account: alice.accountAddress,
metadataBytes,
moduleBytecode: byteCode,
});
const pendingTransaction = await aptos.signAndSubmitTransaction({
signer: alice,
transaction,
});
await aptos.waitForTransaction({ transactionHash: pendingTransaction.hash });
Step 4.2: Understanding the MoonCoin module
The MoonCoin module defines the MoonCoin
struct, or the distinct type of coin type. In addition, it contains a function called init_module
. The init_module
function is called when the module is published. In this case, MoonCoin initializes the MoonCoin
coin type as a ManagedCoin
, which is maintained by the owner of the account.
ManagedCoin framework
ManagedCoin
is a simple coin management framework for coins directly managed by users. It provides convenience wrappers around mint
and burn
.
module MoonCoin::moon_coin {
struct MoonCoin {}
fun init_module(sender: &signer) {
aptos_framework::managed_coin::initialize<MoonCoin>(
sender,
b"Moon Coin",
b"MOON",
6,
false,
);
}
}
Step 4.3: Understanding coins
Coins have several primitives:
- Minting: Creating new coins.
- Burning: Deleting coins.
- Freezing: Preventing an account from storing coins in
CoinStore
. - Registering: Creating a
CoinStore
resource on an account for storing coins. - Transferring: Withdrawing and depositing coins into
CoinStore
.
The entity that creates a new coin gains the capabilities for minting, burning, and freezing.
Step 4.3.1: Initializing a coin
Once a coin type has been published to the Aptos blockchain, the entity that published that coin type can initialize it:
module 0x1::coin {
public fun initialize<CoinType>(
account: &signer,
name: string::String,
symbol: string::String,
decimals: u8,
monitor_supply: bool,
): (BurnCapability<CoinType>, FreezeCapability<CoinType>, MintCapability<CoinType>) {
let account_addr = signer::address_of(account);
assert!(
coin_address<CoinType>() == account_addr,
error::invalid_argument(ECOIN_INFO_ADDRESS_MISMATCH),
);
assert!(
!exists<CoinInfo<CoinType>>(account_addr),
error::already_exists(ECOIN_INFO_ALREADY_PUBLISHED),
);
let coin_info = CoinInfo<CoinType> {
name,
symbol,
decimals,
supply: if (monitor_supply) { option::some(optional_aggregator::new(MAX_U128, false)) } else { option::none() },
};
move_to(account, coin_info);
(BurnCapability<CoinType>{ }, FreezeCapability<CoinType>{ }, MintCapability<CoinType>{ })
}
}
This ensures that this coin type has never been initialized before. Notice the check on lines 10 and 15 to ensure that the caller to initialize
is the same one that actually published this module, and that there is no CoinInfo
stored on their account. If both those conditions check, then a CoinInfo
is stored and the caller obtains capabilities for burning, freezing, and minting.
MoonCoin calls this initialize
function automatically upon package publishing.
Step 4.3.2: Registering a coin
To use a coin, an entity must register a CoinStore
for it on their account:
public entry fun registerCoinType(account: &signer) {
MoonCoin uses ManagedCoin
that provides an entry function wrapper: managed_coin::register
. Here is an example script for registration:
script {
fun register(account: &signer) {
aptos_framework::managed_coin::register<MoonCoin::moon_coin::MoonCoin>(account)
}
}
Step 4.3.3: Minting a coin
Minting coins requires the mint capability that was produced during initialization. the function mint
(see below) takes in that capability and an amount, and returns back a Coin<T>
struct containing that amount of coins. If the coin tracks supply, it will be updated.
module 0x1::coin {
public fun mint<CoinType>(
amount: u64,
_cap: &MintCapability<CoinType>,
): Coin<CoinType> acquires CoinInfo {
if (amount == 0) {
return zero<CoinType>()
};
let maybe_supply = &mut borrow_global_mut<CoinInfo<CoinType>>(coin_address<CoinType>()).supply;
if (option::is_some(maybe_supply)) {
let supply = option::borrow_mut(maybe_supply);
optional_aggregator::add(supply, (amount as u128));
};
Coin<CoinType> { value: amount }
}
}
ManagedCoin
makes this easier by providing an entry function managed_coin::mint
.
Step 4.3.4: Transferring a coin
Aptos provides several building blocks to support coin transfers:
coin::deposit<CoinType>
: Allows any entity to deposit a coin into an account that has already calledcoin::register<CoinType>
.coin::withdraw<CoinType>
: Allows any entity to extract a coin amount from their account.aptos_account::transfer_coins<CoinType>
: Transfer coins of specific CoinType to a receiver.
There are two separate withdraw and deposit events instead of a single transfer event.