PayableMint Trait Implementation
In this section we will:
- Define a new data type.
- Implement functions defined in the
PayableMinttrait from the previous section in filelogics/impl/payable_mint.rs. - Update the contract's constructor to accept new parameters.
- Write a unit test for
mint().
New Type Definition
Since the contract is able to accept new parameters, we will need storage to log them. Let's create a new file called logics/impls/payable_mint/types.rs and add new type Data:
use openbrush::traits::Balance;
#[derive(Default, Debug)]
#[openbrush::storage_item]
pub struct Data {
pub last_token_id: u64,
pub max_supply: u64,
pub price_per_mint: Balance,
}rice_per_mint: Balance,
}
Don't forget to update the logics/impls/payable_mint/mod.rs file with:
pub mod types;
Since we introduced data storage, we will need to add a trait bound Storage<Data> in logics/impls/payable_mint/payable_mint.rs:
use crate::impls::payable_mint::types::Data;
#[openbrush::trait_definition]
pub trait PayableMintImpl:
Storage<Data>
+ Storage<psp34::Data>
+ Storage<ownable::Data>
+ Storage<metadata::Data>
{...}
mint() Implementation
There are several checks that need to be performed before the token mint can proceed. To keep our mint() function easy to read, let's introduce an Internal trait with helper functions in our implementation file logics/impls/payable_mint/payable_mint.rs and add two helper functions check_value() and check_amount() by defining traits and implementing them in the same file:
pub trait Internal: Storage<Data> + psp34::Internal {
/// Check if the transferred mint values is as expected
fn check_value(&self, transferred_value: u128, mint_amount: u64) -> Result<(), PSP34Error> {
if let Some(value) = (mint_amount as u128).checked_mul(self.data::<Data>().price_per_mint) {
if transferred_value == value {
return Ok(());
}
}
return Err(PSP34Error::Custom(String::from("BadMintValue")));
}
/// Check amount of tokens to be minted
fn check_amount(&self, mint_amount: u64) -> Result<(), PSP34Error> {
if mint_amount == 0 {
return Err(PSP34Error::Custom(String::from("CannotMintZeroTokens")));
}
if let Some(amount) = self.data::<Data>().last_token_id.checked_add(mint_amount) {
if amount <= self.data::<Data>().max_supply {
return Ok(());
}
}
return Err(PSP34Error::Custom(String::from("CollectionIsFull")));
}
}
Using these helper functions our mint() implementation will look like this:
#[ink(message, payable)]
fn mint(&mut self, to: AccountId, mint_amount: u64) -> Result<(), PSP34Error> {
self.check_value(Self::env().transferred_value(), mint_amount)?;
self.check_amount(mint_amount)?;
let next_to_mint = self.data::<Data>().last_token_id + 1; // first mint id is 1
let mint_offset = next_to_mint + mint_amount;
for mint_id in next_to_mint..mint_offset {
psp34::InternalImpl::_mint_to(self, to, Id::U64(mint_id))?;
self.data::<Data>().last_token_id += 1;
}
Ok(())
}
withdraw() Implementation
This trait allows the contract owner to initiate withdrawal of funds from the contract by implementing a withdraw function:
/// Withdraws funds to contract owner
#[ink(message)]
#[openbrush::modifiers(only_owner)]
fn withdraw(&mut self) -> Result<(), PSP34Error> {
let balance = Self::env().balance();
let current_balance = balance
.checked_sub(Self::env().minimum_balance())
.unwrap_or_default();
let owner = self.data::<ownable::Data>().owner.get().unwrap().unwrap();
Self::env()
.transfer(owner, current_balance)
.map_err(|_| PSP34Error::Custom(String::from("WithdrawalFailed")))?;
Ok(())
}
set_base_uri() and token_uri() Implementation
To make the code cleaner, let's create additional helper function token_exist() and add it to the Internal trait:
pub trait Internal: Storage<Data> + psp34::Internal {
...
/// Check if token is minted
fn token_exists(&self, id: Id) -> Result<(), PSP34Error> {
self._owner_of(&id).ok_or(PSP34Error::TokenNotExists)?;
Ok(())
}
Now the implementation of set_base_uri() and token_uri() will look like this:
...
/// Set new value for the baseUri
#[ink(message)]
#[openbrush::modifiers(only_owner)]
fn set_base_uri(&mut self, uri: String) -> Result<(), PSP34Error> {
let id = PSP34Impl::collection_id(self);
metadata::Internal::_set_attribute(self, id, String::from("baseUri"), uri);
Ok(())
}
/// Get URI from token ID
#[ink(message)]
fn token_uri(&self, token_id: u64) -> Result<String, PSP34Error> {
self.token_exists(Id::U64(token_id))?;
let base_uri = PSP34MetadataImpl::get_attribute(
self,
PSP34Impl::collection_id(self),
String::from("baseUri"),
);
let token_uri = base_uri.unwrap() + &token_id.to_string() + &String::from(".json");
Ok(token_uri)
Update Shiden34 Contract
Since we have added a new type Data, let's import it into our Shiden34 contract:
use payable_mint_pkg::impls::payable_mint::*;
Add a new element in the struct Shiden34:
...
#[storage_field]
payable_mint: types::Data,
Update the constructor to accept new parameters:
...
#[ink(constructor)]
pub fn new(
name: String,
symbol: String,
base_uri: String,
max_supply: u64,
price_per_mint: Balance,
) -> Self {
let mut instance = Self::default();
let caller = instance.env().caller();
ownable::InternalImpl::_init_with_owner(&mut instance, caller);
let collection_id = psp34::PSP34Impl::collection_id(&instance);
metadata::InternalImpl::_set_attribute(
&mut instance,
collection_id.clone(),
String::from("name"),
name,
);
metadata::InternalImpl::_set_attribute(
&mut instance,
collection_id.clone(),
String::from("symbol"),
symbol,
);
metadata::InternalImpl::_set_attribute(
&mut instance,
collection_id,
String::from("baseUri"),
base_uri,
);
instance.payable_mint.max_supply = max_supply;
instance.payable_mint.price_per_mint = price_per_mint;
instance.payable_mint.last_token_id = 0;
instance
}
Compose Unit Test
Let's write a simple unit test to check the mint() function. In ink! contracts, the unit test needs to be placed inside the contract module, and by default, Alice creates the contract.
After all imports, let's write a helper method to initiate the contract:
#[cfg(test)]
#[cfg(test)]
mod tests {
use super::*;
use crate::shiden34::PSP34Error::*;
use ink::env::test;
const PRICE: Balance = 100_000_000_000_000_000;
fn init() -> Shiden34 {
const BASE_URI: &str = "ipfs://myIpfsUri/";
const MAX_SUPPLY: u64 = 10;
Shiden34::new(
String::from("Shiden34"),
String::from("SH34"),
String::from(BASE_URI),
MAX_SUPPLY,
PRICE,
)
}
}
Test minting 5 tokens to Bob's account. Call to mint() will be from Bob's account:
#[ink::test]
fn mint_multiple_works() {
let mut sh34 = init();
let accounts = test::default_accounts::<Environment>();
set_sender(accounts.bob);
let num_of_mints: u64 = 5;
assert_eq!(PSP34Impl::total_supply(&sh34), 0);
test::set_value_transferred::<ink::env::DefaultEnvironment>(
PRICE * num_of_mints as u128,
);
assert!(payable_mint::PayableMintImpl::mint(&mut sh34, accounts.bob, num_of_mints).is_ok());
assert_eq!(PSP34Impl::total_supply(&sh34), num_of_mints as u128);
assert_eq!(PSP34Impl::balance_of(&sh34, accounts.bob), 5);
assert_eq!(PSP34EnumerableImpl::owners_token_by_index(&sh34, accounts.bob, 0), Ok(Id::U64(1)));
assert_eq!(PSP34EnumerableImpl::owners_token_by_index(&sh34, accounts.bob, 1), Ok(Id::U64(2)));
assert_eq!(PSP34EnumerableImpl::owners_token_by_index(&sh34, accounts.bob, 2), Ok(Id::U64(3)));
assert_eq!(PSP34EnumerableImpl::owners_token_by_index(&sh34, accounts.bob, 3), Ok(Id::U64(4)));
assert_eq!(PSP34EnumerableImpl::owners_token_by_index(&sh34, accounts.bob, 4), Ok(Id::U64(5)));
assert_eq!(
PSP34EnumerableImpl::owners_token_by_index(&sh34, accounts.bob, 5),
Err(TokenNotExists)
);
}
fn set_sender(sender: AccountId) {
ink::env::test::set_caller::<Environment>(sender);
}
Run unit test:
cargo test
At this stage, your code should look something like this.