class DexExplorerV2 private providers: Map<number, ethers.Provider>; private multicalls: Map<number, Multicall>;
// Sort by price (lowest price for token A in terms of token B) validResults.sort((a, b) => a.price - b.price);
// Arbitrage opportunity detection const lowest = validResults[0]; const highest = validResults[validResults.length - 1]; const profitPct = ((highest.price - lowest.price) / lowest.price) * 100; dex explorer v2 script
private initProviders() // Ethereum mainnet const ethProvider = new ethers.JsonRpcProvider(process.env.ETH_RPC_URL); this.providers.set(1, ethProvider); this.multicalls.set(1, new Multicall(ethProvider));
console.table(validResults.map(r => ( DEX: r.dex, Chain: r.chainId === 1 ? "Ethereum" : "BNB Chain", Price: `$$r.price.toFixed(4) USDC per WETH`, Liquidity: `$(Number(r.reserve0) / 1e18).toFixed(2) WETH / $(Number(r.reserve1) / 1e6).toFixed(2) USDC` ))); class DexExplorerV2 private providers: Map<number, ethers
This piece dissects a fully functional Dex Explorer V2 Script written in TypeScript/Node.js, leveraging ethers.js v6 and on-chain subgraph APIs. The V2 script is modular, consisting of five core engines:
// Run the explorer const explorer = new DexExplorerV2(); explorer.explore().catch(console.error); a. Mempool Listener for New Pools V2 scripts subscribe to PairCreated events to instantly explore fresh liquidity before public bots. Mempool Listener for New Pools V2 scripts subscribe
// Fetch reserve & calculate price for a token pair on a given DEX async getPoolData(dex: typeof DEXES[0], tokenA: string, tokenB: string) try const provider = this.providers.get(dex.chainId); if (!provider) return null;