manifold/common/payouts-fixed.ts

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Cfmm (#64) * cpmm initial commit: common logic, cloud functions * remove unnecessary property * contract type * rename 'calculate.ts' => 'calculate-dpm.ts' * rename dpm calculations * use focus hook * mechanism-agnostic calculations * bet panel: use new calculations * use new calculations * delete markets cloud function * use correct contract type in scripts / functions * calculate fixed payouts; bets list calculations * new bet: use calculateCpmmPurchase * getOutcomeProbabilityAfterBet * use deductFixedFees * fix auto-refactor * fix antes * separate logic to payouts-dpm, payouts-fixed * liquidity provision tracking * remove comment * liquidity label * create liquidity provision even if no ante bet * liquidity fee * use all bets for getFixedCancelPayouts * updateUserBalance: allow negative balances * store initialProbability in contracts * turn on liquidity fee; turn off creator fee * Include time param in tweet url, so image preview is re-fetched * share redemption * cpmm ContractBetsTable display * formatMoney: handle minus zero * filter out redemption bets * track fees on contract and bets; change fee schedule for cpmm markets; only pay out creator fees at resolution * small fixes * small fixes * Redeem shares pays back loans first * Fix initial point on graph * calculateCpmmPurchase: deduct creator fee * Filter out redemption bets from feed * set env to dev for user-testing purposes * creator fees messaging * new cfmm: k = y^(1-p) * n^p * addCpmmLiquidity * correct price function * enable fees * handle overflow * liquidity provision tracking * raise fees * Fix merge error * fix dpm free response payout for single outcome * Fix DPM payout calculation * Remove hardcoding as dev Co-authored-by: James Grugett <jahooma@gmail.com>
2022-03-15 22:27:51 +00:00
import * as _ from 'lodash'
import { Bet } from './bet'
import { getProbability } from './calculate'
import { Binary, CPMM, FixedPayouts, FullContract } from './contract'
import { LiquidityProvision } from './liquidity-provision'
export const getFixedCancelPayouts = (
bets: Bet[],
liquidities: LiquidityProvision[]
) => {
const liquidityPayouts = liquidities.map((lp) => ({
userId: lp.userId,
payout: lp.amount,
}))
return bets
.filter((b) => !b.isAnte && !b.isLiquidityProvision)
.map((bet) => ({
userId: bet.userId,
payout: bet.amount,
}))
.concat(liquidityPayouts)
}
export const getStandardFixedPayouts = (
outcome: string,
contract: FullContract<FixedPayouts, Binary>,
bets: Bet[],
liquidities: LiquidityProvision[]
) => {
const winningBets = bets.filter((bet) => bet.outcome === outcome)
const payouts = winningBets.map(({ userId, shares }) => ({
userId,
payout: shares,
}))
const creatorPayout = contract.collectedFees.creatorFee
console.log(
'resolved',
outcome,
'pool',
contract.pool[outcome],
'payouts',
_.sum(payouts),
'creator fee',
creatorPayout
)
return payouts
.map(({ userId, payout }) => ({ userId, payout }))
.concat([{ userId: contract.creatorId, payout: creatorPayout }]) // add creator fee
.concat(getLiquidityPoolPayouts(contract, outcome, liquidities))
}
export const getLiquidityPoolPayouts = (
contract: FullContract<CPMM, Binary>,
outcome: string,
liquidities: LiquidityProvision[]
) => {
const providedLiquidity = _.sumBy(liquidities, (lp) => lp.liquidity)
const { pool } = contract
const finalPool = pool[outcome]
return liquidities.map((lp) => ({
userId: lp.userId,
payout: (lp.liquidity / providedLiquidity) * finalPool,
}))
}
export const getMktFixedPayouts = (
contract: FullContract<FixedPayouts, Binary>,
bets: Bet[],
liquidities: LiquidityProvision[],
resolutionProbability?: number
) => {
const p =
resolutionProbability === undefined
? getProbability(contract)
: resolutionProbability
const payouts = bets.map(({ userId, outcome, shares }) => {
const betP = outcome === 'YES' ? p : 1 - p
return { userId, payout: betP * shares }
})
const creatorPayout = contract.collectedFees.creatorFee
console.log(
'resolved PROB',
p,
'pool',
p * contract.pool.YES + (1 - p) * contract.pool.NO,
'payouts',
_.sum(payouts),
'creator fee',
creatorPayout
)
return payouts
.map(({ userId, payout }) => ({ userId, payout }))
.concat([{ userId: contract.creatorId, payout: creatorPayout }]) // add creator fee
.concat(getLiquidityPoolProbPayouts(contract, p, liquidities))
}
export const getLiquidityPoolProbPayouts = (
contract: FullContract<CPMM, Binary>,
p: number,
liquidities: LiquidityProvision[]
) => {
const providedLiquidity = _.sumBy(liquidities, (lp) => lp.liquidity)
const { pool } = contract
const finalPool = p * pool.YES + (1 - p) * pool.NO
return liquidities.map((lp) => ({
userId: lp.userId,
payout: (lp.liquidity / providedLiquidity) * finalPool,
}))
}