manifold/common/calculate-cpmm.ts

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import * as _ from 'lodash'
import { Bet } from './bet'
import { Binary, CPMM, FullContract } from './contract'
import { CREATOR_FEE, Fees, LIQUIDITY_FEE, PLATFORM_FEE } from './fees'
export function getCpmmProbability(pool: { [outcome: string]: number }) {
// For binary contracts only.
const { YES, NO } = pool
return NO / (YES + NO)
}
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export function getCpmmOutcomeProbabilityAfterBet(
contract: FullContract<CPMM, Binary>,
outcome: string,
bet: number
) {
const { newPool } = calculateCpmmPurchase(contract, bet, outcome)
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const p = getCpmmProbability(newPool)
return outcome === 'NO' ? 1 - p : p
}
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// before liquidity fee
function calculateCpmmShares(
pool: {
[outcome: string]: number
},
bet: number,
betChoice: string
) {
const { YES: y, NO: n } = pool
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const numerator = bet ** 2 + bet * (y + n)
const denominator = betChoice === 'YES' ? bet + n : bet + y
const shares = numerator / denominator
return shares
}
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export function getCpmmLiquidityFee(
contract: FullContract<CPMM, Binary>,
bet: number,
outcome: string
) {
const p = getCpmmProbability(contract.pool)
const betP = outcome === 'YES' ? 1 - p : p
const liquidityFee = LIQUIDITY_FEE * betP * bet
const platformFee = PLATFORM_FEE * betP * bet
const creatorFee = CREATOR_FEE * betP * bet
const fees: Fees = { liquidityFee, platformFee, creatorFee }
const totalFees = liquidityFee + platformFee + creatorFee
const remainingBet = bet - totalFees
return { remainingBet, fees }
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}
export function calculateCpmmSharesAfterFee(
contract: FullContract<CPMM, Binary>,
bet: number,
outcome: string
) {
const { pool } = contract
const { remainingBet } = getCpmmLiquidityFee(contract, bet, outcome)
return calculateCpmmShares(pool, remainingBet, outcome)
}
export function calculateCpmmPurchase(
contract: FullContract<CPMM, Binary>,
bet: number,
outcome: string
) {
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const { pool } = contract
const { remainingBet, fees } = getCpmmLiquidityFee(contract, bet, outcome)
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const shares = calculateCpmmShares(pool, remainingBet, outcome)
const { YES: y, NO: n } = pool
const { liquidityFee: fee } = fees
const [newY, newN] =
outcome === 'YES'
? [y - shares + remainingBet + fee, n + remainingBet + fee]
: [y + remainingBet + fee, n - shares + remainingBet + fee]
const newPool = { YES: newY, NO: newN }
return { shares, newPool, fees }
}
export function calculateCpmmShareValue(
contract: FullContract<CPMM, Binary>,
shares: number,
outcome: string
) {
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const { pool } = contract
const { YES: y, NO: n } = pool
const poolChange = outcome === 'YES' ? shares + y - n : shares + n - y
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const k = y * n
const shareValue = 0.5 * (shares + y + n - Math.sqrt(4 * k + poolChange ** 2))
return shareValue
}
export function calculateCpmmSale(
contract: FullContract<CPMM, Binary>,
bet: Bet
) {
const { shares, outcome } = bet
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const rawSaleValue = calculateCpmmShareValue(contract, shares, outcome)
const { fees, remainingBet: saleValue } = getCpmmLiquidityFee(
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contract,
rawSaleValue,
outcome === 'YES' ? 'NO' : 'YES'
)
const { pool } = contract
const { YES: y, NO: n } = pool
const { liquidityFee: fee } = fees
const [newY, newN] =
outcome === 'YES'
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? [y + shares - saleValue + fee, n - saleValue + fee]
: [y - saleValue + fee, n + shares - saleValue + fee]
const newPool = { YES: newY, NO: newN }
return { saleValue, newPool, fees }
}
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export function getCpmmProbabilityAfterSale(
contract: FullContract<CPMM, Binary>,
bet: Bet
) {
const { newPool } = calculateCpmmSale(contract, bet)
return getCpmmProbability(newPool)
}
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export const calcCpmmInitialPool = (initialProbInt: number, ante: number) => {
const p = initialProbInt / 100.0
const [poolYes, poolNo] =
p >= 0.5 ? [ante * (1 / p - 1), ante] : [ante, ante * (1 / (1 - p) - 1)]
return { poolYes, poolNo }
}
export function getCpmmLiquidity(pool: { [outcome: string]: number }) {
// For binary contracts only.
const { YES, NO } = pool
return Math.sqrt(YES * NO)
}
export function addCpmmLiquidity(
contract: FullContract<CPMM, Binary>,
amount: number
) {
const { YES, NO } = contract.pool
const p = getCpmmProbability({ YES, NO })
const [newYes, newNo] =
p >= 0.5
? [amount * (1 / p - 1), amount]
: [amount, amount * (1 / (1 - p) - 1)]
const betAmount = Math.abs(newYes - newNo)
const betOutcome = p >= 0.5 ? 'YES' : 'NO'
const poolLiquidity = getCpmmLiquidity({ YES, NO })
const newPool = { YES: YES + newYes, NO: NO + newNo }
const resultingLiquidity = getCpmmLiquidity(newPool)
const liquidity = resultingLiquidity - poolLiquidity
return { newPool, liquidity, betAmount, betOutcome }
}
export function removeCpmmLiquidity(
contract: FullContract<CPMM, Binary>,
liquidity: number
) {
const { YES, NO } = contract.pool
const poolLiquidity = getCpmmLiquidity({ YES, NO })
const p = getCpmmProbability({ YES, NO })
const f = liquidity / poolLiquidity
const [payoutYes, payoutNo] = [f * YES, f * NO]
const betAmount = Math.abs(payoutYes - payoutNo)
const betOutcome = p >= 0.5 ? 'NO' : 'YES' // opposite side as adding liquidity
const payout = Math.min(payoutYes, payoutNo)
const newPool = { YES: YES - payoutYes, NO: NO - payoutNo }
return { newPool, payout, betAmount, betOutcome }
}