| name | enosys-dex-v3 |
| description | Deep reference skill for Enosys DEX V3 (CLMM) development on Flare Network. Use this skill whenever Darren asks about: building tools or apps that interact with Enosys DEX V3 positions (LP position manager, burn tool, reward checker), contract addresses for the Enosys V3 position manager or reward system on Flare, how delegation rewards / FlareDrops / APS incentives / rFLR work and how to claim them on-chain, writing ethers.js v6 code against the Enosys V3 contracts, or any task referencing the dex-v3-main codebase. Trigger on any mention of: Enosys V3, CLMM, LP position manager, NonfungiblePositionManager, RewardManager, FtsoRewardRedistributor, MonthlyRewardManager, APS incentives, delegation rewards, FlareDrops, rFLR, burn NFT position, tokensOwed, or pool registry on Flare.
|
Enosys DEX V3 — Developer Reference
Source-verified from the dex-v3-main repository (Next.js/wagmi frontend).
All addresses, ABIs, and reward mechanics confirmed from source code.
Quick orientation
Enosys DEX V3 is a Uniswap V3 fork (CLMM) on Flare Network (chainId 14).
Positions are ERC-721 NFTs. Each position can accumulate up to four distinct
reward types, each with its own contract and claim method. See references/rewards.md
for the full breakdown.
Network
Chain ID: 14 (0xe)
RPC: https://flare-api.flare.network/ext/C/rpc
Explorer: https://flare-explorer.flare.network
Core contract addresses (Flare Mainnet)
const CONTRACTS = {
POSITION_MANAGER: '0xD9770b1C7A6ccd33C75b5bcB1c0078f46bE46657',
FTSO_REWARD_REDISTRIBUTOR: '0x5a0BfF8Ff1AF1DF28619Fce57d07E3bBb7BAF3d7',
MONTHLY_REWARD_MANAGER: '0xef514BCC4ab6226f5666a30d0c4672f00946e3dD',
EPOCH_MANAGER: '0x389D610CBB52A2Da635a589013Ba542e807C74f7',
V3_FACTORY: '0x17AA157AC8C54034381b840Cb8f6bf7Fc355f0de',
SWAP_ROUTER: '0x5FD34090E9b195d8482Ad3CC63dB078534F1b113',
QUOTER: '0x0A32EE3f66cC9E68ffb7cBeCf77bAef03e2d7C56',
PERMIT2: '0xbbeb21bad924f2b4c5ff4c3eb209112a04090838',
}
Minimal ABIs (ethers.js v6 human-readable)
NonfungiblePositionManager
const POSITION_MANAGER_ABI = [
'function balanceOf(address owner) view returns (uint256)',
'function tokenOfOwnerByIndex(address owner, uint256 index) view returns (uint256)',
'function positions(uint256 tokenId) view returns (uint96 nonce, address operator, address token0, address token1, uint24 fee, int24 tickLower, int24 tickUpper, uint128 liquidity, uint256 feeGrowthInside0LastX128, uint256 feeGrowthInside1LastX128, uint128 tokensOwed0, uint128 tokensOwed1)',
'function collect((uint256 tokenId, address recipient, uint128 amount0Max, uint128 amount1Max) params) returns (uint256 amount0, uint256 amount1)',
'function burn(uint256 tokenId)',
'function multicall(bytes[] calldata data) payable returns (bytes[] results)',
]
RewardManager (APS incentives — one instance per pool)
const REWARD_MANAGER_ABI = [
'function getUnclaimed(uint256[] nftIds, uint256 epochsToClaimCnt) view returns (uint256 totalReward)',
'function claim(uint256[] nftIds, uint256 epochsToClaimCnt, address recipient) returns (uint256)',
'function rewardToken() view returns (address)',
]
FtsoRewardRedistributor + MonthlyRewardManager (same ABI shape)
const FTSO_MONTHLY_ABI = [
'function getUnclaimed(uint256[] nftIds) view returns (uint256 totalReward)',
'function claim(uint256[] nftIds, address recipient) returns (uint256 totalReward)',
]
ERC-20
const ERC20_ABI = [
'function symbol() view returns (string)',
'function decimals() view returns (uint8)',
]
Reward system — how to check and claim
Read references/rewards.md for the full mechanics. Summary:
| Reward type | Contract | Check method | Condition to check |
|---|
| Swap fees | POSITION_MANAGER | tokensOwed0/1 from positions() | Always |
| APS incentives | per-pool RewardManager | getUnclaimed([id], 80) | Pool has rewardManagers |
| Delegation (FTSO) | FTSO_REWARD_REDISTRIBUTOR | getUnclaimed([id]) | Pool is native: true |
| FlareDrops monthly | MONTHLY_REWARD_MANAGER | getUnclaimed([id]) | native + chainId === 14 |
| rFLR | n/a — display only | via portal.flare.network | Pool has rflr: true |
WFLR pool fallback: If a pool is missing from the registry, also run FTSO/Monthly
checks when token0 === WFLR_ADDR || token1 === WFLR_ADDR. This catches WFLR-containing
pools that weren't registered. Always check isNative || isWflrPool.
WFLR_ADDR = '0x1d80c49bbbcd1c0911346656b529df9e5c2f783d' (lowercase for comparison)
Fee growth math (in-range positions)
tokensOwed0/1 from positions() only reflects fees collected at last interaction.
For in-range (active) positions, true pending fees must be reconstructed from the
pool's fee growth accumulators. Use these helpers (ethers.js v6 / vanilla BigInt):
const U256 = 1n << 256n
function u256sub(a, b) {
const r = a - b
return r < 0n ? r + U256 : r
}
function calcFeeGrowthInside(fgGlobal, lowerFGO, upperFGO, tickLower, tickUpper, tickCurrent) {
const fgBelow = tickCurrent >= tickLower ? lowerFGO : u256sub(fgGlobal, lowerFGO)
const fgAbove = tickCurrent < tickUpper ? upperFGO : u256sub(fgGlobal, upperFGO)
return u256sub(u256sub(fgGlobal, fgBelow), fgAbove)
}
function calcPendingFeeAmount(liquidity, fgiCurrent, fgiLast) {
return (liquidity * u256sub(fgiCurrent, fgiLast)) >> 128n
}
Required pool contract calls (add to V3_POOL_ABI):
'function feeGrowthGlobal0X128() view returns (uint256)',
'function feeGrowthGlobal1X128() view returns (uint256)',
'function ticks(int24 tick) view returns (uint128 liquidityGross, int128 liquidityNet, uint256 feeGrowthOutside0X128, uint256 feeGrowthOutside1X128, int56 tickCumulativeOutside, uint160 secondsPerLiquidityOutsideX128, uint32 secondsOutside, bool initialized)',
Fetch fgGlobal from pool, feeGrowthOutside0/1X128 from ticks(tickLower) and ticks(tickUpper), then call calcFeeGrowthInside. Compare result against pos.feeGrowthInside0/1LastX128 from positions() using calcPendingFeeAmount.
Claim sequence (run sequentially, continue on individual failure):
- Fees →
collect({ tokenId, recipient, amount0Max: MAX_UINT128, amount1Max: MAX_UINT128 })
- APS incentives →
rewardManager.claim([tokenId], 10, recipient) — gas: min(est*2, 8_000_000)
- Delegation →
ftsoRewardRedistributor.claim([tokenId], recipient) — if native pool
- Monthly drops →
monthlyRewardManager.claim([tokenId], recipient) — if native + chainId 14
Pool registry
Read references/pools.md for the full pool list. Key fields per pool entry:
native: true — pool earns delegation rewards + FlareDrops
rflr: true — pool participates in monthly rFLR program (display-only link)
rewardManagers: [...] — APS incentive managers; always use the last entry as the active one
function findPool(token0, token1, fee, registry) {
const t0 = token0.toLowerCase(), t1 = token1.toLowerCase()
return registry.find(p =>
p.fee === fee &&
((p.tokens[0].toLowerCase() === t0 && p.tokens[1].toLowerCase() === t1) ||
(p.tokens[0].toLowerCase() === t1 && p.tokens[1].toLowerCase() === t0))
) || null
}
function getActiveRewardManager(pool) {
if (!pool?.rewardManagers?.length) return null
return pool.rewardManagers[pool.rewardManagers.length - 1]
}
Token registry (Flare Mainnet key tokens)
const TOKENS = {
WFLR: { address: '0x1D80c49BbBCd1C0911346656B529DF9E5c2F783d', decimals: 18 },
USDT0: { address: '0xe7cd86e13AC4309349F30B3435a9d337750fC82D', decimals: 6 },
sFLR: { address: '0x12e605bc104e93B45e1aD99F9e555f659051c2BB', decimals: 18 },
HLN: { address: '0x140D8d3649Ec605CF69018C627fB44cCC76eC89f', decimals: 18 },
APS: { address: '0xfF56Eb5b1a7FAa972291117E5E9565dA29bc808d', decimals: 18 },
FXRP: { address: '0xAd552A648C74D49E10027AB8a618A3ad4901c5bE', decimals: 6 },
CDP: { address: '0x6Cd3a5Ba46FA254D4d2E3C2B37350ae337E94a0F', decimals: 18 },
EUSDT: { decimals: 6 },
EETH: { decimals: 18 },
EQNT: { decimals: 18 },
'USDC.E':{ decimals: 6 },
USDT_SG: { decimals: 6 },
USDX: { decimals: 18 },
}
Key constants
const MAX_UINT128 = 2n ** 128n - 1n
const FEE_TIER_LABELS = { 100: '0.01%', 500: '0.05%', 3000: '0.30%', 10000: '1.00%' }
const INCENTIVE_EPOCHS_CHECK = 80
const INCENTIVE_EPOCHS_CLAIM = 10
const INCENTIVE_GAS_CAP = 8_000_000n
const RFLR_PORTAL_URL = 'https://portal.flare.network'
const EXPLORER_BASE = 'https://flare-explorer.flare.network'
Burn eligibility
A position NFT can only be burned when ALL of the following are true:
liquidity === 0n
tokensOwed0 === 0n AND tokensOwed1 === 0n (swap fees)
getUnclaimed([tokenId], 80) === 0n on its rewardManager (APS)
ftsoRewardRedistributor.getUnclaimed([tokenId]) === 0n (if native pool)
monthlyRewardManager.getUnclaimed([tokenId]) === 0n (if native + Flare)
Re-verify by re-calling positions(tokenId) immediately before sending the burn tx.
App architecture pattern (from dex-v3-main)
The existing frontend splits position rows into two components:
- InactivePositionRow — zero-liquidity positions. Uses
tokensOwed0/1 directly (no fee growth math). Loads ~3-4 RPC calls total.
- ActivePositionRowFull — positions with liquidity. Runs full fee growth recalculation using feeGrowthGlobal + tick data from pool
slot0 and ticks(). Heavier (~15 RPC calls).
The gate component (ActivePositionRow) fetches tokenId + position data (2 calls), checks liquidity === 0n, and routes to the appropriate component. This is the right pattern to replicate in vanilla JS tools.
Reference files
references/rewards.md — full reward mechanics, epoch system, gas notes
references/pools.md — complete Flare pool registry (~36 pools) with all addresses and flags