_The missing NFT swap SDK for Ethereum and EVM compatible chains, powered by the 0x protocol, written in TypeScript for web3 developers.
tl;dr: NFT Swap SDK is the easiest, most-powerful NFT swap library. Supports Ethereum and EVM-compatible chains (Polygon, Avalanche, BSC, etc..). Works in both browser and node.js. Written in TypeScript, built using the 0x protocol. With this library, you can build support for NFT marketplaces or over-the-counter (OTC) exchange.
The NFT Swap SDK developed by Trader.xyz offers swap support for ERC20s, ERC721s, and ERC1155s. Exchange NFTs for NFTs, NFTs for ERC20 tokens, or bundles of NFTs and tokens. This library provides the ultimate swap flexibility combined with a simple API surface area so you can be productive immediately and focus on building your web3 app.
This library is powered and secured by the 0x v3 protocol. The 0x v3 protocol has been in production for multiple years securing billions of dollars with of trades.
We want to share all underlying technology trader.xyz uses with the community. While we won't be open-sourcing our frontend, as we think design and UX is our differentiator, we believe in open-sourcing and freely sharing all underlying technology.
Our end goal is every piece of tech you see trader.xyz use (protocol, swap libraries, open-source orderbook, order monitor, high-performance NFT indexer, property-based orders, specific React hooks, and NFT aggregation) end up open-source. This library is the first step to achieving our goal.
You can install the SDK with yarn:
yarn add @traderxyz/nft-swap-sdk
or npm:
npm install @traderxyz/nft-swap-sdk
To use the SDK, create a new NftSwap instance.
import { NftSwap } from '@traderxyz/nft-swap-sdk';
// From your app, provide NftSwap the web3 provider or signer, and the chainId to instantiate
const nftSwapSdk = new NftSwap(providerOrSigner, chainId);
Now you're setup and ready to use the SDK in your program. Check out the examples for how to swap with the library.
In this first example, we're going to do a 1:1 NFT swap. We're going to swap User A's CryptoPunk NFT for User B's Bored Ape NFT.
Terminology:
maker
: Since User A will initiate the trade, we'll refer to User A as themaker
of the trade.
Terminology:
taker
: Since User B will be filling and completing the trade created by User A, we'll refer to User B as thetaker
of the trade.
// Setup the sample data...
const CHAIN_ID = 1; // Chain 1 corresponds to Mainnet. Visit https://chainid.network/ for a complete list of chain ids
const CRYPTOPUNK_420 = {
tokenAddress: '0xb47e3cd837ddf8e4c57f05d70ab865de6e193bbb', // CryptoPunk contract address
tokenId: '420', // Token Id of the CryptoPunk we want to swap
type: 'ERC721', // Must be one of 'ERC20', 'ERC721', or 'ERC1155'
};
const BORED_APE_69 = {
tokenAddress: '0xBC4CA0EdA7647A8aB7C2061c2E118A18a936f13D', // BAYC contract address
tokenId: '69', // Token Id of the BoredApe we want to swap
type: 'ERC721',
};
// User A Trade Data
const walletAddressUserA = '0x1eeD19957E0a81AED9a80f09a3CCEaD83Ea6D86b';
const assetsToSwapUserA = [CRYPTOPUNK_420];
// User B Trade Data
const walletAddressUserB = '0x44beA2b43600eE240AB6Cb90696048CeF32aBf1D';
const assetsToSwapUserB = [BORED_APE_69];
// ............................
// Part 1 of the trade -- User A (the 'maker') initiates an order
// ............................
// Initiate the SDK for User A.
// Pass the user's wallet signer (available via the user's wallet provider) to the Swap SDK
const nftSwapSdk = new NftSwap(signerUserA, CHAIN_ID);
// Check if we need to approve the NFT for swapping
const approvalStatusForUserA = await nftSwapSdk.loadApprovalStatus(
assetsToSwapUserA[0],
walletAddressUserA
);
// If we do need to approve User A's CryptoPunk for swapping, let's do that now
if (!approvalStatusForUserA.contractApproved) {
const approvalTx = await nftSwapSdk.approveTokenOrNftByAsset(
assetsToSwapUserA[0],
makerAddress
);
const approvalTxReceipt = await approvalTx.wait();
console.log(
`Approved ${assetsToSwapUserA[0].tokenAddress} contract to swap with 0x (txHash: ${approvalTxReceipt.transactionHash})`
);
}
// Create the order (Remember, User A initiates the trade, so User A creates the order)
const order = nftSwapSdk.buildOrder(
assetsToSwapUserA,
assetsToSwapUserB,
walletAddressUserA
);
// Sign the order (User A signs since they are initiating the trade)
const signedOrder = await nftSwapSdk.signOrder(order, takerAddress);
// Part 1 Complete. User A is now done. Now we send the `signedOrder` to User B to complete the trade.
// ............................
// Part 2 of the trade -- User B (the 'taker') accepts and fills order from User A and completes trade
// ............................
// Initiate the SDK for User B.
// Pass the user's wallet signer (available via the user's wallet provider) to the Swap SDK
const nftSwapSdk = new NftSwap(signerUserB, CHAIN_ID);
// Check if we need to approve the NFT for swapping
const approvalStatusForUserB = await nftSwapSdk.loadApprovalStatus(
assetsToSwapUserB[0],
walletAddressUserB
);
// If we do need to approve NFT for swapping, let's do that now
if (!approvalStatusForUserB.contractApproved) {
const approvalTx = await nftSwapSdk.approveTokenOrNftByAsset(
assetsToSwapUserB[0],
walletAddressUserB
);
const approvalTxReceipt = await approvalTx.wait();
console.log(
`Approved ${assetsToSwapUserB[0].tokenAddress} contract to swap with 0x. TxHash: ${approvalTxReceipt.transactionHash})`
);
}
// The final step is the taker (User B) submitting the order.
// The taker approves the trade transaction and it will be submitted on the blockchain for settlement.
// Once the transaction is confirmed, the trade will be settled and cannot be reversed.
const fillTx = await nftSwapSdk.fillSignedOrder(signedOrder);
const fillTxReceipt = await nftSwapSdk.awaitTransactionHash(fillTx);
console.log(`π π₯³ Order filled. TxHash: ${fillTxReceipt.transactionHash}`);
Here we show an example of what the swap library is capable of. We can even swap arbitrary ERC tokens in bundles. We call it a bundle when we have more than one item that a party will swap. Bundles can have different ERC types within the same bundle.
In other words, we can swap [ERC721, ERC1155, ERC20] <> [ERC721, ERC1155, ERC20]
. There's really no limit to what we can swap.
More concrete example: We can swap [2 CryptoPunks and 1,000 DAI] for [420 WETH and 694,200 USDC]
. In this case we'd be swapping an ERC721
and an ERC20
(Punk NFT and DAI, respectively) for two ERC20s
(WETH and USDC).
This is just one example. In reality, you can swap as many things as you'd like, any way you'd like. The underlying 0x protocol is extremely flexible, and the NFT swap library abstracts all the complexity away so you don't have to worry about protocol nuances.
// Setup the sample data for the swap...
const CHAIN_ID = 1; // Mainnet
const CRYPTOPUNK_420 = {
tokenAddress: '0xb47e3cd837ddf8e4c57f05d70ab865de6e193bbb',
tokenId: '420',
type: 'ERC721',
};
const CRYPTOPUNK_421 = {
tokenAddress: '0xb47e3cd837ddf8e4c57f05d70ab865de6e193bbb',
tokenId: '421',
type: 'ERC721',
};
const ONE_THOUSAND_DAI = {
tokenAddress: '0x6b175474e89094c44da98b954eedeac495271d0f', // DAI contract address
amount: '1000000000000000000000', // 1,000 DAI (DAI is 18 digits) -- amount to swap
type: 'ERC20',
};
const SIXTY_NINE_USDC = {
tokenAddress: '0xA0b86991c6218b36c1d19D4a2e9Eb0cE3606eB48', // USDC contract address
amount: '69000000', // 69 USDC (USDC is 6 digits)
type: 'ERC20',
};
const FOUR_THOUSAND_TWENTY_WETH = {
tokenAddress: '0x6b175474e89094c44da98b954eedeac495271d0f', // WETH contract address
amount: '420000000000000000000', // 420 Wrapped-ETH (WETH is 18 digits)
type: 'ERC20',
};
// User A Trade Data
const walletAddressUserA = '0x1eeD19957E0a81AED9a80f09a3CCEaD83Ea6D86b';
const assetsToSwapUserA = [CRYPTOPUNK_420, CRYPTOPUNK_421, ONE_THOUSAND_DAI];
// User B Trade Data
const walletAddressUserB = '0x44beA2b43600eE240AB6Cb90696048CeF32aBf1D';
const assetsToSwapUserB = [SIXTY_NINE_USDC, FOUR_THOUSAND_TWENTY_WETH];
// ............................
// Part 1 of the trade -- User A (the 'maker') initiates an order
// ............................
const nftSwapSdk = new NftSwap(signerUserA, CHAIN_ID);
// Note: For brevity, we assume all assets are approved for swap in this example.
// See previous example on how to approve an asset.
const order = nftSwapSdk.buildOrder(
assetsToSwapUserA,
assetsToSwapUserB,
walletAddressUserA
);
const signedOrder = await nftSwapSdk.signOrder(order, takerAddress);
// ............................
// Part 2 of the trade -- User B (the 'taker') accepts and fills order from User A and completes trade
// ............................
const nftSwapSdk = new NftSwap(signerUserB, CHAIN_ID);
const fillTx = await nftSwapSdk.fillSignedOrder(signedOrder);
const fillTxReceipt = await nftSwapSdk.awaitTransactionHash(fillTx);
console.log(`π π₯³ Order filled. TxHash: ${fillTxReceipt.transactionHash}`);
// Not so bad, right? We can arbitrarily add more assets to our swap without introducing additional complexity!
In this example, we'll leverage the amazing web3-react
React Hook library.
const App = () => {
const { library, chainId } = useWeb3React();
const [swapSdk, setSwapSdk] = useState(null);
useEffect(() => {
const sdk = new NftSwap(library.getSigner(), chainId);
setSwapSdk(sdk);
}, [library, chainId])
// Use the SDK however you'd like in the app...
const handleClick = useCallback(() => {
if (!swapSdk) {
return;
}
swapSdk.buildOrder(...)
}, [swapSdk])
// ...
}
-
Which ERCs does this library support
- ERC20, ERC721, and ERC1155
-
What EVM chains are currently supported?
- Mainnet (1)
- Kovan (42)
- Rinkeby (4)
- Polygon (137)
- Binance Smart Chain (56)
- Avalance (43114)
-
What protocol does this library?
-
Are there any protocol fees to execute swaps?
- No
-
How do I get the user's
signer
object?- Generally you can get it from the user's web3 wallet provider, by something like this:
provider.getSigner()
. - See this ethers guide (control-f for
getSigner
). - In web3-react you can do:
const { library } = useWeb3React();
const signer = library.getSigner();
- Generally you can get it from the user's web3 wallet provider, by something like this:
-
How do I store a
SignedOrder
- That's up to you. This library has no opinions on how to store orders. You can throw them in a centralized SQL database, save them to localstorage, use a decentralized messaging solution -- it's really up to you and your app concerns. You can even serialize and compress an order to fit in a tweet or shareable URL! π€―
We're currently working on the following features for the next iteration of this library
- Persistent data store of orders (off-the-shelf storage in trader.xyz's public order storage server). Think of it as a public good
- Property-based orders
- Order validation
- Live order status
- Order event streaming via websockets
If you have feature requests, reach out in our Discord.
We want to make this library a one-stop shop for all your NFT swapping needs.
- We're also moving off of
@0x/*
libraries due to the payload size of these packages.