Typechain target Ethers-v5
TypeChain target Ethers-v5
This package requires TypeScript >= 4.0. If you need support for earlier TS versions check out: 1.0 version of this package.
TypeChain readme
Start here
- First install the package:
yarn add --dev @hovoh/typechain-ethers-multicall
- Generate typings by specifying the full path to the module:
typechain --target node_modules/@hovoh/typechain-ethers-multicall --out-dir ./generated './abis/**/*.json'
Then to make calls, make sure ethers and @hovoh/ethcall is installed.
yarn add ethers @hovoh/ethcall
Contract typings
The main files generated by this target are <contract-name>.ts
. They declare typesafe interfaces for your contracts
on top of Ethers Contract
instances and Ethcall Contract:
- typed contract's methods, available both at
contract.someMethod(...)
andcontract.functions.someMethod(...)
- typed events in
contract.interface.events.AnEvent
and filters incontract.filters.AnEvent
- typed method gas estimates in
contract.estimateGas.someMethod
- overrides for the event listener methods (
on
,once
, etc) that return the same contract type. - Prepare multicalls typings with the
<contract-name>Multicall
class
Note: these are just type declarations to help you call the blockchain properly, so they're not available at runtime,
and all of the contracts are still instances of the same Contract
class.
Contract factories
This target also generates a concrete factory class for each contract, to help you deploy or connect to contract
instances. The factory classes are an extension of ethers' ContractFactory
. They serve two main purposes:
- wrap passing contract ABI and bytecode to the
ContractFactory
class, so you don't have to load and parse the JSON manually - provide a correctly typed interface to
ContractFactory
(since it returns plainContract
instances).
The connect
method returns the basic EthersJs Contract to make simple calls to your contract
The multicall
method returns an Ethcall Contract instance. To see how to use it please refer to their docs.
Abstract contracts or solidity interfaces are handled a bit different, because they have no bytecode. For those, a
simplified factory is generated that doesn't extends ContractFactory
, and only includes the static connect
method,
so you can easily connect to a deployed instance without having to pass the ABI manually.
Basic example
Suppose you have an Erc20Token.sol
solidity interface and a DummyToken.sol
contract implementing it.
The test package contains a test which can be used as a reference.
import { BigNumber } from 'ethers';
import { Wallet } from 'ethers';
import {initMulticallProvider} from "@hovoh/ethcall";
import { DummyTokenFactory } from 'typechain-out-dir/DummyTokenFactory';
import { DummyToken } from 'typechain-out-dir/DummyToken';
import { Erc20TokenFactory } from 'typechain-out-dir/Erc20TokenFactory';
const provider = getYourProvider(...);
const chainId = 1;
// use the concrete contract factory if you need to operate on the bytecode (ie. deploy)
async function deployTestToken(ownerPK: string): Promise<DummyToken> {
const owner = new Wallet(ownerPK, provider);
return new DummyTokenFactory(owner).deploy();
}
// to call existing contracts, a factory for both the concrete contract and for the interface
// can be used since the ABI is the same
async function getTokenBalance(walletAddress: string, tokenAddress: string): Promise<BigNumber> {
const token = Erc20TokenFactory.connect(tokenAddress, provider);
return token.balanceOf(walletAddress);
}
// You can query multiple balances with the same call by creating a multicall contract instance
// and running the query with a multicall provider.
async function getTokenBalance(walletAddresses: string[], tokenAddress: string): Promise<BigNumber[]> {
const token = Erc20TokenFactory.multicall(tokenAddress, provider);
const calls = walletAddresses.map(address => token.balanceOf(address));
const multicall = initMulticallProvider(provider, chainId)
return multicall.all(calls);
}