735546619e
Signed-off-by: T-Hax <>
374 lines
16 KiB
TypeScript
374 lines
16 KiB
TypeScript
import Decimal from 'decimal.js'
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import { BigNumber, BigNumberish, Wallet } from 'ethers'
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import { ethers, waffle } from 'hardhat'
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import { MockTimeUniswapV3Pool } from '../typechain/MockTimeUniswapV3Pool'
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import { TickMathTest } from '../typechain/TickMathTest'
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import { UniswapV3PoolSwapTest } from '../typechain/UniswapV3PoolSwapTest'
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import { expect } from './shared/expect'
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import { poolFixture } from './shared/fixtures'
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import { formatPrice, formatTokenAmount } from './shared/format'
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import {
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createPoolFunctions,
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encodePriceSqrt,
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expandTo18Decimals,
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FeeAmount,
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getMaxLiquidityPerTick,
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getMaxTick,
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getMinTick,
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MAX_SQRT_RATIO,
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MaxUint128,
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MIN_SQRT_RATIO,
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MintFunction,
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SwapFunction,
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TICK_SPACINGS,
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} from './shared/utilities'
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const {
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constants: { MaxUint256 },
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} = ethers
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const createFixtureLoader = waffle.createFixtureLoader
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Decimal.config({ toExpNeg: -500, toExpPos: 500 })
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function applySqrtRatioBipsHundredthsDelta(sqrtRatio: BigNumber, bipsHundredths: number): BigNumber {
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return BigNumber.from(
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new Decimal(
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sqrtRatio
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.mul(sqrtRatio)
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.mul(1e6 + bipsHundredths)
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.div(1e6)
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.toString()
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)
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.sqrt()
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.floor()
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.toString()
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)
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}
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describe('UniswapV3Pool arbitrage tests', () => {
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let wallet: Wallet, arbitrageur: Wallet
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let loadFixture: ReturnType<typeof createFixtureLoader>
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before('create fixture loader', async () => {
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;[wallet, arbitrageur] = await (ethers as any).getSigners()
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loadFixture = createFixtureLoader([wallet, arbitrageur])
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})
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for (const feeProtocol of [0, 6]) {
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describe(`protocol fee = ${feeProtocol};`, () => {
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const startingPrice = encodePriceSqrt(1, 1)
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const startingTick = 0
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const feeAmount = FeeAmount.MEDIUM
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const tickSpacing = TICK_SPACINGS[feeAmount]
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const minTick = getMinTick(tickSpacing)
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const maxTick = getMaxTick(tickSpacing)
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for (const passiveLiquidity of [
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expandTo18Decimals(1).div(100),
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expandTo18Decimals(1),
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expandTo18Decimals(10),
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expandTo18Decimals(100),
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]) {
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describe(`passive liquidity of ${formatTokenAmount(passiveLiquidity)}`, () => {
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const arbTestFixture = async ([wallet, arbitrageur]: Wallet[]) => {
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const fix = await poolFixture([wallet], waffle.provider)
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const pool = await fix.createPool(feeAmount, tickSpacing)
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await fix.token0.transfer(arbitrageur.address, BigNumber.from(2).pow(254))
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await fix.token1.transfer(arbitrageur.address, BigNumber.from(2).pow(254))
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const {
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swapExact0For1,
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swapToHigherPrice,
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swapToLowerPrice,
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swapExact1For0,
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mint,
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} = await createPoolFunctions({
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swapTarget: fix.swapTargetCallee,
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token0: fix.token0,
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token1: fix.token1,
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pool,
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})
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const testerFactory = await ethers.getContractFactory('UniswapV3PoolSwapTest')
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const tester = (await testerFactory.deploy()) as UniswapV3PoolSwapTest
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const tickMathFactory = await ethers.getContractFactory('TickMathTest')
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const tickMath = (await tickMathFactory.deploy()) as TickMathTest
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await fix.token0.approve(tester.address, MaxUint256)
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await fix.token1.approve(tester.address, MaxUint256)
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await pool.initialize(startingPrice)
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if (feeProtocol != 0) await pool.setFeeProtocol(feeProtocol, feeProtocol)
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await mint(wallet.address, minTick, maxTick, passiveLiquidity)
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expect((await pool.slot0()).tick).to.eq(startingTick)
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expect((await pool.slot0()).sqrtPriceX96).to.eq(startingPrice)
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return { pool, swapExact0For1, mint, swapToHigherPrice, swapToLowerPrice, swapExact1For0, tester, tickMath }
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}
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let swapExact0For1: SwapFunction
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let swapToHigherPrice: SwapFunction
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let swapToLowerPrice: SwapFunction
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let swapExact1For0: SwapFunction
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let pool: MockTimeUniswapV3Pool
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let mint: MintFunction
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let tester: UniswapV3PoolSwapTest
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let tickMath: TickMathTest
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beforeEach('load the fixture', async () => {
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;({
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swapExact0For1,
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pool,
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mint,
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swapToHigherPrice,
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swapToLowerPrice,
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swapExact1For0,
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tester,
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tickMath,
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} = await loadFixture(arbTestFixture))
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})
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async function simulateSwap(
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zeroForOne: boolean,
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amountSpecified: BigNumberish,
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sqrtPriceLimitX96?: BigNumber
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): Promise<{
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executionPrice: BigNumber
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nextSqrtRatio: BigNumber
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amount0Delta: BigNumber
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amount1Delta: BigNumber
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}> {
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const { amount0Delta, amount1Delta, nextSqrtRatio } = await tester.callStatic.getSwapResult(
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pool.address,
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zeroForOne,
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amountSpecified,
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sqrtPriceLimitX96 ?? (zeroForOne ? MIN_SQRT_RATIO.add(1) : MAX_SQRT_RATIO.sub(1))
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)
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const executionPrice = zeroForOne
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? encodePriceSqrt(amount1Delta, amount0Delta.mul(-1))
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: encodePriceSqrt(amount1Delta.mul(-1), amount0Delta)
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return { executionPrice, nextSqrtRatio, amount0Delta, amount1Delta }
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}
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for (const { zeroForOne, assumedTruePriceAfterSwap, inputAmount, description } of [
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{
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description: 'exact input of 10e18 token0 with starting price of 1.0 and true price of 0.98',
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zeroForOne: true,
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inputAmount: expandTo18Decimals(10),
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assumedTruePriceAfterSwap: encodePriceSqrt(98, 100),
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},
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{
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description: 'exact input of 10e18 token0 with starting price of 1.0 and true price of 1.01',
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zeroForOne: true,
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inputAmount: expandTo18Decimals(10),
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assumedTruePriceAfterSwap: encodePriceSqrt(101, 100),
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},
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]) {
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describe(description, () => {
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function valueToken1(arbBalance0: BigNumber, arbBalance1: BigNumber) {
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return assumedTruePriceAfterSwap
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.mul(assumedTruePriceAfterSwap)
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.mul(arbBalance0)
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.div(BigNumber.from(2).pow(192))
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.add(arbBalance1)
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}
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it('not sandwiched', async () => {
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const { executionPrice, amount1Delta, amount0Delta } = await simulateSwap(zeroForOne, inputAmount)
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zeroForOne
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? await swapExact0For1(inputAmount, wallet.address)
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: await swapExact1For0(inputAmount, wallet.address)
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expect({
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executionPrice: formatPrice(executionPrice),
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amount0Delta: formatTokenAmount(amount0Delta),
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amount1Delta: formatTokenAmount(amount1Delta),
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priceAfter: formatPrice((await pool.slot0()).sqrtPriceX96),
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}).to.matchSnapshot()
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})
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it('sandwiched with swap to execution price then mint max liquidity/target/burn max liquidity', async () => {
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const { executionPrice } = await simulateSwap(zeroForOne, inputAmount)
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const firstTickAboveMarginalPrice = zeroForOne
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? Math.ceil(
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(await tickMath.getTickAtSqrtRatio(
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applySqrtRatioBipsHundredthsDelta(executionPrice, feeAmount)
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)) / tickSpacing
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) * tickSpacing
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: Math.floor(
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(await tickMath.getTickAtSqrtRatio(
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applySqrtRatioBipsHundredthsDelta(executionPrice, -feeAmount)
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)) / tickSpacing
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) * tickSpacing
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const tickAfterFirstTickAboveMarginPrice = zeroForOne
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? firstTickAboveMarginalPrice - tickSpacing
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: firstTickAboveMarginalPrice + tickSpacing
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const priceSwapStart = await tickMath.getSqrtRatioAtTick(firstTickAboveMarginalPrice)
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let arbBalance0 = BigNumber.from(0)
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let arbBalance1 = BigNumber.from(0)
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// first frontrun to the first tick before the execution price
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const {
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amount0Delta: frontrunDelta0,
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amount1Delta: frontrunDelta1,
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executionPrice: frontrunExecutionPrice,
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} = await simulateSwap(zeroForOne, MaxUint256.div(2), priceSwapStart)
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arbBalance0 = arbBalance0.sub(frontrunDelta0)
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arbBalance1 = arbBalance1.sub(frontrunDelta1)
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zeroForOne
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? await swapToLowerPrice(priceSwapStart, arbitrageur.address)
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: await swapToHigherPrice(priceSwapStart, arbitrageur.address)
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const profitToken1AfterFrontRun = valueToken1(arbBalance0, arbBalance1)
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const tickLower = zeroForOne ? tickAfterFirstTickAboveMarginPrice : firstTickAboveMarginalPrice
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const tickUpper = zeroForOne ? firstTickAboveMarginalPrice : tickAfterFirstTickAboveMarginPrice
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// deposit max liquidity at the tick
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const mintReceipt = await (
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await mint(wallet.address, tickLower, tickUpper, getMaxLiquidityPerTick(tickSpacing))
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).wait()
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// sub the mint costs
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const { amount0: amount0Mint, amount1: amount1Mint } = pool.interface.decodeEventLog(
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pool.interface.events['Mint(address,address,int24,int24,uint128,uint256,uint256)'],
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mintReceipt.events?.[2].data!
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)
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arbBalance0 = arbBalance0.sub(amount0Mint)
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arbBalance1 = arbBalance1.sub(amount1Mint)
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// execute the user's swap
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const { executionPrice: executionPriceAfterFrontrun } = await simulateSwap(zeroForOne, inputAmount)
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zeroForOne
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? await swapExact0For1(inputAmount, wallet.address)
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: await swapExact1For0(inputAmount, wallet.address)
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// burn the arb's liquidity
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const { amount0: amount0Burn, amount1: amount1Burn } = await pool.callStatic.burn(
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tickLower,
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tickUpper,
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getMaxLiquidityPerTick(tickSpacing)
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)
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await pool.burn(tickLower, tickUpper, getMaxLiquidityPerTick(tickSpacing))
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arbBalance0 = arbBalance0.add(amount0Burn)
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arbBalance1 = arbBalance1.add(amount1Burn)
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// add the fees as well
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const {
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amount0: amount0CollectAndBurn,
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amount1: amount1CollectAndBurn,
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} = await pool.callStatic.collect(arbitrageur.address, tickLower, tickUpper, MaxUint128, MaxUint128)
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const [amount0Collect, amount1Collect] = [
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amount0CollectAndBurn.sub(amount0Burn),
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amount1CollectAndBurn.sub(amount1Burn),
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]
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arbBalance0 = arbBalance0.add(amount0Collect)
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arbBalance1 = arbBalance1.add(amount1Collect)
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const profitToken1AfterSandwich = valueToken1(arbBalance0, arbBalance1)
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// backrun the swap to true price, i.e. swap to the marginal price = true price
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const priceToSwapTo = zeroForOne
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? applySqrtRatioBipsHundredthsDelta(assumedTruePriceAfterSwap, -feeAmount)
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: applySqrtRatioBipsHundredthsDelta(assumedTruePriceAfterSwap, feeAmount)
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const {
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amount0Delta: backrunDelta0,
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amount1Delta: backrunDelta1,
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executionPrice: backrunExecutionPrice,
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} = await simulateSwap(!zeroForOne, MaxUint256.div(2), priceToSwapTo)
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await swapToHigherPrice(priceToSwapTo, wallet.address)
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arbBalance0 = arbBalance0.sub(backrunDelta0)
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arbBalance1 = arbBalance1.sub(backrunDelta1)
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expect({
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sandwichedPrice: formatPrice(executionPriceAfterFrontrun),
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arbBalanceDelta0: formatTokenAmount(arbBalance0),
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arbBalanceDelta1: formatTokenAmount(arbBalance1),
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profit: {
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final: formatTokenAmount(valueToken1(arbBalance0, arbBalance1)),
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afterFrontrun: formatTokenAmount(profitToken1AfterFrontRun),
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afterSandwich: formatTokenAmount(profitToken1AfterSandwich),
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},
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backrun: {
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executionPrice: formatPrice(backrunExecutionPrice),
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delta0: formatTokenAmount(backrunDelta0),
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delta1: formatTokenAmount(backrunDelta1),
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},
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frontrun: {
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executionPrice: formatPrice(frontrunExecutionPrice),
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delta0: formatTokenAmount(frontrunDelta0),
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delta1: formatTokenAmount(frontrunDelta1),
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},
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collect: {
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amount0: formatTokenAmount(amount0Collect),
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amount1: formatTokenAmount(amount1Collect),
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},
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burn: {
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amount0: formatTokenAmount(amount0Burn),
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amount1: formatTokenAmount(amount1Burn),
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},
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mint: {
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amount0: formatTokenAmount(amount0Mint),
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amount1: formatTokenAmount(amount1Mint),
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},
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finalPrice: formatPrice((await pool.slot0()).sqrtPriceX96),
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}).to.matchSnapshot()
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})
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it('backrun to true price after swap only', async () => {
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let arbBalance0 = BigNumber.from(0)
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let arbBalance1 = BigNumber.from(0)
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zeroForOne
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? await swapExact0For1(inputAmount, wallet.address)
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: await swapExact1For0(inputAmount, wallet.address)
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// swap to the marginal price = true price
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const priceToSwapTo = zeroForOne
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? applySqrtRatioBipsHundredthsDelta(assumedTruePriceAfterSwap, -feeAmount)
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: applySqrtRatioBipsHundredthsDelta(assumedTruePriceAfterSwap, feeAmount)
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const {
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amount0Delta: backrunDelta0,
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amount1Delta: backrunDelta1,
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executionPrice: backrunExecutionPrice,
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} = await simulateSwap(!zeroForOne, MaxUint256.div(2), priceToSwapTo)
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zeroForOne
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? await swapToHigherPrice(priceToSwapTo, wallet.address)
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: await swapToLowerPrice(priceToSwapTo, wallet.address)
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arbBalance0 = arbBalance0.sub(backrunDelta0)
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arbBalance1 = arbBalance1.sub(backrunDelta1)
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expect({
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arbBalanceDelta0: formatTokenAmount(arbBalance0),
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arbBalanceDelta1: formatTokenAmount(arbBalance1),
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profit: {
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final: formatTokenAmount(valueToken1(arbBalance0, arbBalance1)),
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},
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backrun: {
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executionPrice: formatPrice(backrunExecutionPrice),
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delta0: formatTokenAmount(backrunDelta0),
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delta1: formatTokenAmount(backrunDelta1),
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},
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finalPrice: formatPrice((await pool.slot0()).sqrtPriceX96),
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}).to.matchSnapshot()
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})
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})
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}
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})
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}
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})
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}
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})
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