import { expect } from "chai"; import hre from "hardhat"; const { web3, deployments, waffle, ethers } = hre; const { provider, deployContract } = waffle; import { deployAndEnableConnector } from "../../../scripts/tests/deployAndEnableConnector"; import { buildDSAv2 } from "../../../scripts/tests/buildDSAv2"; import { encodeSpells } from "../../../scripts/tests/encodeSpells"; import { getMasterSigner } from "../../../scripts/tests/getMasterSigner"; import { addLiquidity } from "../../../scripts/tests/addLiquidity"; import { addresses } from "../../../scripts/tests/polygon/addresses"; import { abis } from "../../../scripts/constant/abis"; import type { Signer, Contract } from "ethers"; import { abi } from "@uniswap/v3-periphery/artifacts/contracts/NonfungiblePositionManager.sol/NonfungiblePositionManager.json"; import { ConnectV2UniswapV3SwapPolygon__factory } from "../../../typechain"; const FeeAmount = { LOW: 500, MEDIUM: 3000, HIGH: 10000 }; const TICK_SPACINGS: Record = { 500: 10, 3000: 60, 10000: 200 }; const DAI_ADDR = "0x8f3Cf7ad23Cd3CaDbD9735AFf958023239c6A063"; let tokenIds: any[] = []; let liquidities: any[] = []; const abiCoder = ethers.utils.defaultAbiCoder; describe("UniswapV3 [Polygon]", function () { const connectorName = "UniswapV3-Swap-v1"; let dsaWallet0: any; let masterSigner: Signer; let instaConnectorsV2: Contract; let connector: Contract; let nftManager: Contract; const wallets = provider.getWallets(); const [wallet0, wallet1, wallet2, wallet3] = wallets; before(async () => { await hre.network.provider.request({ method: "hardhat_reset", params: [ { forking: { // @ts-ignore jsonRpcUrl: hre.config.networks.hardhat.forking.url, blockNumber: 27946900 } } ] }); masterSigner = await getMasterSigner(); instaConnectorsV2 = await ethers.getContractAt(abis.core.connectorsV2, addresses.core.connectorsV2); nftManager = await ethers.getContractAt(abi, "0xC36442b4a4522E871399CD717aBDD847Ab11FE88"); connector = await deployAndEnableConnector({ connectorName, contractArtifact: ConnectV2UniswapV3SwapPolygon__factory, signer: masterSigner, connectors: instaConnectorsV2 }); console.log("Connector address", connector.address); }); it("Should have contracts deployed.", async function () { expect(!!instaConnectorsV2.address).to.be.true; expect(!!connector.address).to.be.true; expect(!!(await masterSigner.getAddress())).to.be.true; }); describe("DSA wallet setup", function () { it("Should build DSA v2", async function () { dsaWallet0 = await buildDSAv2(wallet0.address); expect(!!dsaWallet0.address).to.be.true; }); it("Deposit MATIC & DAI into DSA wallet", async function () { await wallet0.sendTransaction({ to: dsaWallet0.address, value: ethers.utils.parseEther("10") }); expect(await ethers.provider.getBalance(dsaWallet0.address)).to.be.gte(ethers.utils.parseEther("10")); await addLiquidity("dai", dsaWallet0.address, ethers.utils.parseEther("100000")); }); }); describe("Main", function () { it("Should buy successfully", async function () { const maticAmount = ethers.utils.parseUnits("0.1", 18); const unitAmt = ethers.utils.parseEther("1.21"); const maticAddress = "0xeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee"; const getId = "0"; const setId = "0"; const spells = [ { connector: connectorName, method: "buy", args: [maticAddress, DAI_ADDR, FeeAmount.MEDIUM, unitAmt, maticAmount, getId, setId] } ]; const tx = await dsaWallet0.connect(wallet0).cast(...encodeSpells(spells), wallet1.address); const receipt = await tx.wait(); // console.log(receipt); }); it("Should sell successfully", async function () { const maticAmount = ethers.utils.parseUnits("0.1", 18); const unitAmt = ethers.utils.parseEther("1.093"); const maticAddress = "0xeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee"; const getId = "0"; const setId = "0"; const spells = [ { connector: connectorName, method: "sell", args: [DAI_ADDR, maticAddress, FeeAmount.MEDIUM, unitAmt, maticAmount, getId, setId] } ]; const tx = await dsaWallet0.connect(wallet0).cast(...encodeSpells(spells), wallet1.address); const receipt = await tx.wait(); // console.log(receipt); }); }); }); const getMinTick = (tickSpacing: number) => Math.ceil(-887272 / tickSpacing) * tickSpacing; const getMaxTick = (tickSpacing: number) => Math.floor(887272 / tickSpacing) * tickSpacing;