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Overview
ETH Balance
63.685866762318602381 ETH
Eth Value
$166,561.36 (@ $2,615.36/ETH)Token Holdings
- ERC-20 Tokens (10)47.42393475 cbETH
Coinbase Wra... (cbETH)$133,817.07@2,821.720.86 XELS
Xels Token$0.06@0.07391.7 Token
ERC-20 TOKEN*[Suspicious]3,999.99 TokenERC-20 TOKEN*[Suspicious]3,999.99 TokenERC-20 TOKEN*[Suspicious]1.4 TokenERC-20 TOKEN*[Spam]1.4 TokenERC-20 TOKEN*[Spam]1.4 TokenERC-20 TOKEN*[Spam]1,675.2 TokenERC-20 TOKEN*[Spam]98,127 TokenERC-20 TOKEN*[Spam]zsteth.com : airdrop recipient
# zsteth.com : airdrop recipientERC-1155ether-origin.comWithdrawal NFT ether-origin.comERC-1155ERC-1155 TOKEN*[Suspicious]More Info
Private Name Tags
ContractCreator
Latest 25 from a total of 807 transactions
View all transactionsTransaction Hash MethodBlockFromToExchange_underly... 20735536 18 days ago IN 3 ETH 0.00202027 Remove_liquidity... 20702232 22 days ago IN 0 ETH 0.00017425 Remove_liquidity 20625201 33 days ago IN 0 ETH 0.00009971 Remove_liquidity 20557459 43 days ago IN 0 ETH 0.00021157 Remove_liquidity 20550414 44 days ago IN 0 ETH 0.00014216 Remove_liquidity 20550094 44 days ago IN 0 ETH 0.00015826 Remove_liquidity... 20534860 46 days ago IN 0 ETH 0.00112248 Exchange_underly... 20411053 63 days ago IN 0.112 ETH 0.00067982 Exchange_underly... 20374437 68 days ago IN 0.2 ETH 0.00066082 Exchange_underly... 20374310 68 days ago IN 0.2 ETH 0.00059327 Exchange_underly... 20374295 68 days ago IN 0.26 ETH 0.0006424 Exchange_underly... 20374064 68 days ago IN 0.2127 ETH 0.00073674 Exchange_underly... 20367823 69 days ago IN 0.253 ETH 0.00083249 Exchange_underly... 20367814 69 days ago IN 0.2 ETH 0.00086465 Exchange_underly... 20367621 69 days ago IN 0.25 ETH 0.00078854 Exchange_underly... 20367607 69 days ago IN 0.28 ETH 0.00080831 Remove_liquidity 20367282 69 days ago IN 0 ETH 0.00043748 Remove_liquidity... 20364748 69 days ago IN 0 ETH 0.00218017 Add_liquidity 20351527 71 days ago IN 25 ETH 0.00049909 Add_liquidity 20346617 72 days ago IN 170 ETH 0.00104861 Exchange_underly... 20337025 73 days ago IN 0.1092 ETH 0.00122919 Exchange_underly... 20337023 73 days ago IN 0.1133 ETH 0.00117453 Exchange_underly... 20337012 73 days ago IN 0.12 ETH 0.0013196 Exchange_underly... 20337008 73 days ago IN 0.1121 ETH 0.00130304 Exchange_underly... 20336967 73 days ago IN 0.1095 ETH 0.00142595 Latest 25 internal transactions (View All)
Advanced mode:View All Internal TransactionsParent Transaction Hash Block From To 20851627 2 days ago 0.17 ETH 20851460 2 days ago 0.07 ETH 20837331 3 days ago 8.8 ETH 20837327 3 days ago 8.60264223 ETH 20832923 4 days ago 5.02128657 ETH 20832922 4 days ago 12.31191074 ETH 20832922 4 days ago 4.28950306 ETH 20809181 7 days ago 4.38520022 ETH 20809181 7 days ago 4.65013447 ETH 20809180 7 days ago 5.34377752 ETH 20803729 8 days ago 1.51439764 ETH 20803338 8 days ago 10.81119484 ETH 20803338 8 days ago 15.2 ETH 20798353 9 days ago 4.77625251 ETH 20798353 9 days ago 4.2 ETH 20798353 9 days ago 4.75106641 ETH 20795106 9 days ago 4.70389999 ETH 20794141 10 days ago 8.62333302 ETH 20789083 10 days ago 2.32 ETH 20782056 11 days ago 5.34539999 ETH 20781840 11 days ago 3.49749239 ETH 20780437 11 days ago 4.26761423 ETH 20780436 11 days ago 8.62447549 ETH 20777340 12 days ago 4.39678955 ETH 20775777 12 days ago 1.2 ETH Loading...LoadingMinimal Proxy Contract for 0xa85461afc2deec01bda23b5cd267d51f765fba10
Contract Name:Vyper_contract
Compiler Versionvyper:0.3.1
Contract Source Code (Vyper language format)
# @version 0.3.1 # (c) Curve.Fi, 2021 # Pool for two crypto assets # Universal implementation which can use both ETH and ERC20s from vyper.interfaces import ERC20 interface Factory: def admin() -> address: view def fee_receiver() -> address: view interface CurveToken: def totalSupply() -> uint256: view def mint(_to: address, _value: uint256) -> bool: nonpayable def mint_relative(_to: address, frac: uint256) -> uint256: nonpayable def burnFrom(_to: address, _value: uint256) -> bool: nonpayable interface WETH: def deposit(): payable def withdraw(_amount: uint256): nonpayable # Events event TokenExchange: buyer: indexed(address) sold_id: uint256 tokens_sold: uint256 bought_id: uint256 tokens_bought: uint256 event AddLiquidity: provider: indexed(address) token_amounts: uint256[N_COINS] fee: uint256 token_supply: uint256 event RemoveLiquidity: provider: indexed(address) token_amounts: uint256[N_COINS] token_supply: uint256 event RemoveLiquidityOne: provider: indexed(address) token_amount: uint256 coin_index: uint256 coin_amount: uint256 event CommitNewParameters: deadline: indexed(uint256) admin_fee: uint256 mid_fee: uint256 out_fee: uint256 fee_gamma: uint256 allowed_extra_profit: uint256 adjustment_step: uint256 ma_half_time: uint256 event NewParameters: admin_fee: uint256 mid_fee: uint256 out_fee: uint256 fee_gamma: uint256 allowed_extra_profit: uint256 adjustment_step: uint256 ma_half_time: uint256 event RampAgamma: initial_A: uint256 future_A: uint256 initial_gamma: uint256 future_gamma: uint256 initial_time: uint256 future_time: uint256 event StopRampA: current_A: uint256 current_gamma: uint256 time: uint256 event ClaimAdminFee: admin: indexed(address) tokens: uint256 ADMIN_ACTIONS_DELAY: constant(uint256) = 3 * 86400 MIN_RAMP_TIME: constant(uint256) = 86400 MAX_ADMIN_FEE: constant(uint256) = 10 * 10 ** 9 MIN_FEE: constant(uint256) = 5 * 10 ** 5 # 0.5 bps MAX_FEE: constant(uint256) = 10 * 10 ** 9 MAX_A_CHANGE: constant(uint256) = 10 NOISE_FEE: constant(uint256) = 10**5 # 0.1 bps MIN_GAMMA: constant(uint256) = 10**10 MAX_GAMMA: constant(uint256) = 2 * 10**16 MIN_A: constant(uint256) = N_COINS**N_COINS * A_MULTIPLIER / 10 MAX_A: constant(uint256) = N_COINS**N_COINS * A_MULTIPLIER * 100000 EXP_PRECISION: constant(uint256) = 10**10 N_COINS: constant(int128) = 2 PRECISION: constant(uint256) = 10 ** 18 # The precision to convert to A_MULTIPLIER: constant(uint256) = 10000 # Implementation can be changed by changing this constant WETH20: immutable(address) token: public(address) coins: public(address[N_COINS]) price_scale: public(uint256) # Internal price scale _price_oracle: uint256 # Price target given by MA last_prices: public(uint256) last_prices_timestamp: public(uint256) initial_A_gamma: public(uint256) future_A_gamma: public(uint256) initial_A_gamma_time: public(uint256) future_A_gamma_time: public(uint256) allowed_extra_profit: public(uint256) # 2 * 10**12 - recommended value future_allowed_extra_profit: public(uint256) fee_gamma: public(uint256) future_fee_gamma: public(uint256) adjustment_step: public(uint256) future_adjustment_step: public(uint256) ma_half_time: public(uint256) future_ma_half_time: public(uint256) mid_fee: public(uint256) out_fee: public(uint256) admin_fee: public(uint256) future_mid_fee: public(uint256) future_out_fee: public(uint256) future_admin_fee: public(uint256) balances: public(uint256[N_COINS]) D: public(uint256) factory: public(address) xcp_profit: public(uint256) xcp_profit_a: public(uint256) # Full profit at last claim of admin fees virtual_price: public(uint256) # Cached (fast to read) virtual price also used internally not_adjusted: bool admin_actions_deadline: public(uint256) # This must be changed for different N_COINS # For example: # N_COINS = 3 -> 1 (10**18 -> 10**18) # N_COINS = 4 -> 10**8 (10**18 -> 10**10) # PRICE_PRECISION_MUL: constant(uint256) = 1 PRECISIONS: uint256 # packed @external def __init__(_weth: address): WETH20 = _weth self.mid_fee = 22022022 @payable @external def __default__(): pass # Internal Functions @internal @view def _get_precisions() -> uint256[2]: p0: uint256 = self.PRECISIONS p1: uint256 = 10 ** shift(p0, -8) p0 = 10 ** bitwise_and(p0, 255) return [p0, p1] @internal @view def xp() -> uint256[N_COINS]: precisions: uint256[2] = self._get_precisions() return [self.balances[0] * precisions[0], self.balances[1] * precisions[1] * self.price_scale / PRECISION] @view @internal def _A_gamma() -> uint256[2]: t1: uint256 = self.future_A_gamma_time A_gamma_1: uint256 = self.future_A_gamma gamma1: uint256 = bitwise_and(A_gamma_1, 2**128-1) A1: uint256 = shift(A_gamma_1, -128) if block.timestamp < t1: # handle ramping up and down of A A_gamma_0: uint256 = self.initial_A_gamma t0: uint256 = self.initial_A_gamma_time # Less readable but more compact way of writing and converting to uint256 # gamma0: uint256 = bitwise_and(A_gamma_0, 2**128-1) # A0: uint256 = shift(A_gamma_0, -128) # A1 = A0 + (A1 - A0) * (block.timestamp - t0) / (t1 - t0) # gamma1 = gamma0 + (gamma1 - gamma0) * (block.timestamp - t0) / (t1 - t0) t1 -= t0 t0 = block.timestamp - t0 t2: uint256 = t1 - t0 A1 = (shift(A_gamma_0, -128) * t2 + A1 * t0) / t1 gamma1 = (bitwise_and(A_gamma_0, 2**128-1) * t2 + gamma1 * t0) / t1 return [A1, gamma1] @internal @view def _fee(xp: uint256[N_COINS]) -> uint256: """ f = fee_gamma / (fee_gamma + (1 - K)) where K = prod(x) / (sum(x) / N)**N (all normalized to 1e18) """ fee_gamma: uint256 = self.fee_gamma f: uint256 = xp[0] + xp[1] # sum f = fee_gamma * 10**18 / ( fee_gamma + 10**18 - (10**18 * N_COINS**N_COINS) * xp[0] / f * xp[1] / f ) return (self.mid_fee * f + self.out_fee * (10**18 - f)) / 10**18 ### Math functions @internal @pure def geometric_mean(unsorted_x: uint256[N_COINS], sort: bool) -> uint256: """ (x[0] * x[1] * ...) ** (1/N) """ x: uint256[N_COINS] = unsorted_x if sort and x[0] < x[1]: x = [unsorted_x[1], unsorted_x[0]] D: uint256 = x[0] diff: uint256 = 0 for i in range(255): D_prev: uint256 = D # tmp: uint256 = 10**18 # for _x in x: # tmp = tmp * _x / D # D = D * ((N_COINS - 1) * 10**18 + tmp) / (N_COINS * 10**18) # line below makes it for 2 coins D = (D + x[0] * x[1] / D) / N_COINS if D > D_prev: diff = D - D_prev else: diff = D_prev - D if diff <= 1 or diff * 10**18 < D: return D raise "Did not converge" @internal @view def newton_D(ANN: uint256, gamma: uint256, x_unsorted: uint256[N_COINS]) -> uint256: """ Finding the invariant using Newton method. ANN is higher by the factor A_MULTIPLIER ANN is already A * N**N Currently uses 60k gas """ # Safety checks assert ANN > MIN_A - 1 and ANN < MAX_A + 1 # dev: unsafe values A assert gamma > MIN_GAMMA - 1 and gamma < MAX_GAMMA + 1 # dev: unsafe values gamma # Initial value of invariant D is that for constant-product invariant x: uint256[N_COINS] = x_unsorted if x[0] < x[1]: x = [x_unsorted[1], x_unsorted[0]] assert x[0] > 10**9 - 1 and x[0] < 10**15 * 10**18 + 1 # dev: unsafe values x[0] assert x[1] * 10**18 / x[0] > 10**14-1 # dev: unsafe values x[i] (input) D: uint256 = N_COINS * self.geometric_mean(x, False) S: uint256 = x[0] + x[1] for i in range(255): D_prev: uint256 = D # K0: uint256 = 10**18 # for _x in x: # K0 = K0 * _x * N_COINS / D # collapsed for 2 coins K0: uint256 = (10**18 * N_COINS**2) * x[0] / D * x[1] / D _g1k0: uint256 = gamma + 10**18 if _g1k0 > K0: _g1k0 = _g1k0 - K0 + 1 else: _g1k0 = K0 - _g1k0 + 1 # D / (A * N**N) * _g1k0**2 / gamma**2 mul1: uint256 = 10**18 * D / gamma * _g1k0 / gamma * _g1k0 * A_MULTIPLIER / ANN # 2*N*K0 / _g1k0 mul2: uint256 = (2 * 10**18) * N_COINS * K0 / _g1k0 neg_fprime: uint256 = (S + S * mul2 / 10**18) + mul1 * N_COINS / K0 - mul2 * D / 10**18 # D -= f / fprime D_plus: uint256 = D * (neg_fprime + S) / neg_fprime D_minus: uint256 = D*D / neg_fprime if 10**18 > K0: D_minus += D * (mul1 / neg_fprime) / 10**18 * (10**18 - K0) / K0 else: D_minus -= D * (mul1 / neg_fprime) / 10**18 * (K0 - 10**18) / K0 if D_plus > D_minus: D = D_plus - D_minus else: D = (D_minus - D_plus) / 2 diff: uint256 = 0 if D > D_prev: diff = D - D_prev else: diff = D_prev - D if diff * 10**14 < max(10**16, D): # Could reduce precision for gas efficiency here # Test that we are safe with the next newton_y for _x in x: frac: uint256 = _x * 10**18 / D assert (frac > 10**16 - 1) and (frac < 10**20 + 1) # dev: unsafe values x[i] return D raise "Did not converge" @internal @pure def newton_y(ANN: uint256, gamma: uint256, x: uint256[N_COINS], D: uint256, i: uint256) -> uint256: """ Calculating x[i] given other balances x[0..N_COINS-1] and invariant D ANN = A * N**N """ # Safety checks assert ANN > MIN_A - 1 and ANN < MAX_A + 1 # dev: unsafe values A assert gamma > MIN_GAMMA - 1 and gamma < MAX_GAMMA + 1 # dev: unsafe values gamma assert D > 10**17 - 1 and D < 10**15 * 10**18 + 1 # dev: unsafe values D x_j: uint256 = x[1 - i] y: uint256 = D**2 / (x_j * N_COINS**2) K0_i: uint256 = (10**18 * N_COINS) * x_j / D # S_i = x_j # frac = x_j * 1e18 / D => frac = K0_i / N_COINS assert (K0_i > 10**16*N_COINS - 1) and (K0_i < 10**20*N_COINS + 1) # dev: unsafe values x[i] # x_sorted: uint256[N_COINS] = x # x_sorted[i] = 0 # x_sorted = self.sort(x_sorted) # From high to low # x[not i] instead of x_sorted since x_soted has only 1 element convergence_limit: uint256 = max(max(x_j / 10**14, D / 10**14), 100) for j in range(255): y_prev: uint256 = y K0: uint256 = K0_i * y * N_COINS / D S: uint256 = x_j + y _g1k0: uint256 = gamma + 10**18 if _g1k0 > K0: _g1k0 = _g1k0 - K0 + 1 else: _g1k0 = K0 - _g1k0 + 1 # D / (A * N**N) * _g1k0**2 / gamma**2 mul1: uint256 = 10**18 * D / gamma * _g1k0 / gamma * _g1k0 * A_MULTIPLIER / ANN # 2*K0 / _g1k0 mul2: uint256 = 10**18 + (2 * 10**18) * K0 / _g1k0 yfprime: uint256 = 10**18 * y + S * mul2 + mul1 _dyfprime: uint256 = D * mul2 if yfprime < _dyfprime: y = y_prev / 2 continue else: yfprime -= _dyfprime fprime: uint256 = yfprime / y # y -= f / f_prime; y = (y * fprime - f) / fprime # y = (yfprime + 10**18 * D - 10**18 * S) // fprime + mul1 // fprime * (10**18 - K0) // K0 y_minus: uint256 = mul1 / fprime y_plus: uint256 = (yfprime + 10**18 * D) / fprime + y_minus * 10**18 / K0 y_minus += 10**18 * S / fprime if y_plus < y_minus: y = y_prev / 2 else: y = y_plus - y_minus diff: uint256 = 0 if y > y_prev: diff = y - y_prev else: diff = y_prev - y if diff < max(convergence_limit, y / 10**14): frac: uint256 = y * 10**18 / D assert (frac > 10**16 - 1) and (frac < 10**20 + 1) # dev: unsafe value for y return y raise "Did not converge" @internal @pure def halfpow(power: uint256) -> uint256: """ 1e18 * 0.5 ** (power/1e18) Inspired by: https://github.com/balancer-labs/balancer-core/blob/master/contracts/BNum.sol#L128 """ intpow: uint256 = power / 10**18 otherpow: uint256 = power - intpow * 10**18 if intpow > 59: return 0 result: uint256 = 10**18 / (2**intpow) if otherpow == 0: return result term: uint256 = 10**18 x: uint256 = 5 * 10**17 S: uint256 = 10**18 neg: bool = False for i in range(1, 256): K: uint256 = i * 10**18 c: uint256 = K - 10**18 if otherpow > c: c = otherpow - c neg = not neg else: c -= otherpow term = term * (c * x / 10**18) / K if neg: S -= term else: S += term if term < EXP_PRECISION: return result * S / 10**18 raise "Did not converge" ### end of Math functions @internal @view def get_xcp(D: uint256) -> uint256: x: uint256[N_COINS] = [D / N_COINS, D * PRECISION / (self.price_scale * N_COINS)] return self.geometric_mean(x, True) @internal def _claim_admin_fees(): A_gamma: uint256[2] = self._A_gamma() xcp_profit: uint256 = self.xcp_profit xcp_profit_a: uint256 = self.xcp_profit_a # Gulp here for i in range(N_COINS): coin: address = self.coins[i] if coin == WETH20: self.balances[i] = self.balance else: self.balances[i] = ERC20(coin).balanceOf(self) vprice: uint256 = self.virtual_price if xcp_profit > xcp_profit_a: fees: uint256 = (xcp_profit - xcp_profit_a) * self.admin_fee / (2 * 10**10) if fees > 0: receiver: address = Factory(self.factory).fee_receiver() if receiver != ZERO_ADDRESS: frac: uint256 = vprice * 10**18 / (vprice - fees) - 10**18 claimed: uint256 = CurveToken(self.token).mint_relative(receiver, frac) xcp_profit -= fees*2 self.xcp_profit = xcp_profit log ClaimAdminFee(receiver, claimed) total_supply: uint256 = CurveToken(self.token).totalSupply() # Recalculate D b/c we gulped D: uint256 = self.newton_D(A_gamma[0], A_gamma[1], self.xp()) self.D = D self.virtual_price = 10**18 * self.get_xcp(D) / total_supply if xcp_profit > xcp_profit_a: self.xcp_profit_a = xcp_profit @internal @view def internal_price_oracle() -> uint256: price_oracle: uint256 = self._price_oracle last_prices_timestamp: uint256 = self.last_prices_timestamp if last_prices_timestamp < block.timestamp: ma_half_time: uint256 = self.ma_half_time last_prices: uint256 = self.last_prices alpha: uint256 = self.halfpow((block.timestamp - last_prices_timestamp) * 10**18 / ma_half_time) return (last_prices * (10**18 - alpha) + price_oracle * alpha) / 10**18 else: return price_oracle @internal def tweak_price(A_gamma: uint256[2],_xp: uint256[N_COINS], p_i: uint256, new_D: uint256): price_oracle: uint256 = self._price_oracle last_prices: uint256 = self.last_prices price_scale: uint256 = self.price_scale last_prices_timestamp: uint256 = self.last_prices_timestamp p_new: uint256 = 0 if last_prices_timestamp < block.timestamp: # MA update required ma_half_time: uint256 = self.ma_half_time alpha: uint256 = self.halfpow((block.timestamp - last_prices_timestamp) * 10**18 / ma_half_time) price_oracle = (last_prices * (10**18 - alpha) + price_oracle * alpha) / 10**18 self._price_oracle = price_oracle self.last_prices_timestamp = block.timestamp D_unadjusted: uint256 = new_D # Withdrawal methods know new D already if new_D == 0: # We will need this a few times (35k gas) D_unadjusted = self.newton_D(A_gamma[0], A_gamma[1], _xp) if p_i > 0: last_prices = p_i else: # calculate real prices __xp: uint256[N_COINS] = _xp dx_price: uint256 = __xp[0] / 10**6 __xp[0] += dx_price last_prices = price_scale * dx_price / (_xp[1] - self.newton_y(A_gamma[0], A_gamma[1], __xp, D_unadjusted, 1)) self.last_prices = last_prices total_supply: uint256 = CurveToken(self.token).totalSupply() old_xcp_profit: uint256 = self.xcp_profit old_virtual_price: uint256 = self.virtual_price # Update profit numbers without price adjustment first xp: uint256[N_COINS] = [D_unadjusted / N_COINS, D_unadjusted * PRECISION / (N_COINS * price_scale)] xcp_profit: uint256 = 10**18 virtual_price: uint256 = 10**18 if old_virtual_price > 0: xcp: uint256 = self.geometric_mean(xp, True) virtual_price = 10**18 * xcp / total_supply xcp_profit = old_xcp_profit * virtual_price / old_virtual_price t: uint256 = self.future_A_gamma_time if virtual_price < old_virtual_price and t == 0: raise "Loss" if t == 1: self.future_A_gamma_time = 0 self.xcp_profit = xcp_profit norm: uint256 = price_oracle * 10**18 / price_scale if norm > 10**18: norm -= 10**18 else: norm = 10**18 - norm adjustment_step: uint256 = max(self.adjustment_step, norm / 5) needs_adjustment: bool = self.not_adjusted # if not needs_adjustment and (virtual_price-10**18 > (xcp_profit-10**18)/2 + self.allowed_extra_profit): # (re-arrange for gas efficiency) if not needs_adjustment and (virtual_price * 2 - 10**18 > xcp_profit + 2*self.allowed_extra_profit) and (norm > adjustment_step) and (old_virtual_price > 0): needs_adjustment = True self.not_adjusted = True if needs_adjustment: if norm > adjustment_step and old_virtual_price > 0: p_new = (price_scale * (norm - adjustment_step) + adjustment_step * price_oracle) / norm # Calculate balances*prices xp = [_xp[0], _xp[1] * p_new / price_scale] # Calculate "extended constant product" invariant xCP and virtual price D: uint256 = self.newton_D(A_gamma[0], A_gamma[1], xp) xp = [D / N_COINS, D * PRECISION / (N_COINS * p_new)] # We reuse old_virtual_price here but it's not old anymore old_virtual_price = 10**18 * self.geometric_mean(xp, True) / total_supply # Proceed if we've got enough profit # if (old_virtual_price > 10**18) and (2 * (old_virtual_price - 10**18) > xcp_profit - 10**18): if (old_virtual_price > 10**18) and (2 * old_virtual_price - 10**18 > xcp_profit): self.price_scale = p_new self.D = D self.virtual_price = old_virtual_price return else: self.not_adjusted = False # Can instead do another flag variable if we want to save bytespace self.D = D_unadjusted self.virtual_price = virtual_price self._claim_admin_fees() return # If we are here, the price_scale adjustment did not happen # Still need to update the profit counter and D self.D = D_unadjusted self.virtual_price = virtual_price # norm appeared < adjustment_step after if needs_adjustment: self.not_adjusted = False self._claim_admin_fees() @internal def _exchange(sender: address, mvalue: uint256, i: uint256, j: uint256, dx: uint256, min_dy: uint256, use_eth: bool, receiver: address, callbacker: address, callback_sig: bytes32) -> uint256: assert i != j # dev: coin index out of range assert i < N_COINS # dev: coin index out of range assert j < N_COINS # dev: coin index out of range assert dx > 0 # dev: do not exchange 0 coins A_gamma: uint256[2] = self._A_gamma() xp: uint256[N_COINS] = self.balances p: uint256 = 0 dy: uint256 = 0 in_coin: address = self.coins[i] out_coin: address = self.coins[j] y: uint256 = xp[j] x0: uint256 = xp[i] xp[i] = x0 + dx self.balances[i] = xp[i] price_scale: uint256 = self.price_scale precisions: uint256[2] = self._get_precisions() xp = [xp[0] * precisions[0], xp[1] * price_scale * precisions[1] / PRECISION] prec_i: uint256 = precisions[0] prec_j: uint256 = precisions[1] if i == 1: prec_i = precisions[1] prec_j = precisions[0] # In case ramp is happening t: uint256 = self.future_A_gamma_time if t > 0: x0 *= prec_i if i > 0: x0 = x0 * price_scale / PRECISION x1: uint256 = xp[i] # Back up old value in xp xp[i] = x0 self.D = self.newton_D(A_gamma[0], A_gamma[1], xp) xp[i] = x1 # And restore if block.timestamp >= t: self.future_A_gamma_time = 1 dy = xp[j] - self.newton_y(A_gamma[0], A_gamma[1], xp, self.D, j) # Not defining new "y" here to have less variables / make subsequent calls cheaper xp[j] -= dy dy -= 1 if j > 0: dy = dy * PRECISION / price_scale dy /= prec_j dy -= self._fee(xp) * dy / 10**10 assert dy >= min_dy, "Slippage" y -= dy self.balances[j] = y # Do transfers in and out together # XXX coin vs ETH if use_eth and in_coin == WETH20: assert mvalue == dx # dev: incorrect eth amount else: assert mvalue == 0 # dev: nonzero eth amount if callback_sig == EMPTY_BYTES32: response: Bytes[32] = raw_call( in_coin, _abi_encode( sender, self, dx, method_id=method_id("transferFrom(address,address,uint256)") ), max_outsize=32, ) if len(response) != 0: assert convert(response, bool) # dev: failed transfer else: b: uint256 = ERC20(in_coin).balanceOf(self) raw_call( callbacker, concat(slice(callback_sig, 0, 4), _abi_encode(sender, receiver, in_coin, dx, dy)) ) assert ERC20(in_coin).balanceOf(self) - b == dx # dev: callback didn't give us coins if in_coin == WETH20: WETH(WETH20).withdraw(dx) if use_eth and out_coin == WETH20: raw_call(receiver, b"", value=dy) else: if out_coin == WETH20: WETH(WETH20).deposit(value=dy) response: Bytes[32] = raw_call( out_coin, _abi_encode(receiver, dy, method_id=method_id("transfer(address,uint256)")), max_outsize=32, ) if len(response) != 0: assert convert(response, bool) y *= prec_j if j > 0: y = y * price_scale / PRECISION xp[j] = y # Calculate price if dx > 10**5 and dy > 10**5: _dx: uint256 = dx * prec_i _dy: uint256 = dy * prec_j if i == 0: p = _dx * 10**18 / _dy else: # j == 0 p = _dy * 10**18 / _dx self.tweak_price(A_gamma, xp, p, 0) log TokenExchange(sender, i, dx, j, dy) return dy @view @internal def _calc_token_fee(amounts: uint256[N_COINS], xp: uint256[N_COINS]) -> uint256: # fee = sum(amounts_i - avg(amounts)) * fee' / sum(amounts) fee: uint256 = self._fee(xp) * N_COINS / (4 * (N_COINS-1)) S: uint256 = 0 for _x in amounts: S += _x avg: uint256 = S / N_COINS Sdiff: uint256 = 0 for _x in amounts: if _x > avg: Sdiff += _x - avg else: Sdiff += avg - _x return fee * Sdiff / S + NOISE_FEE @internal @view def _calc_withdraw_one_coin(A_gamma: uint256[2], token_amount: uint256, i: uint256, update_D: bool, calc_price: bool) -> (uint256, uint256, uint256, uint256[N_COINS]): token_supply: uint256 = CurveToken(self.token).totalSupply() assert token_amount <= token_supply # dev: token amount more than supply assert i < N_COINS # dev: coin out of range xx: uint256[N_COINS] = self.balances D0: uint256 = 0 precisions: uint256[2] = self._get_precisions() price_scale_i: uint256 = self.price_scale * precisions[1] xp: uint256[N_COINS] = [xx[0] * precisions[0], xx[1] * price_scale_i / PRECISION] if i == 0: price_scale_i = PRECISION * precisions[0] if update_D: D0 = self.newton_D(A_gamma[0], A_gamma[1], xp) else: D0 = self.D D: uint256 = D0 # Charge the fee on D, not on y, e.g. reducing invariant LESS than charging the user fee: uint256 = self._fee(xp) dD: uint256 = token_amount * D / token_supply D -= (dD - (fee * dD / (2 * 10**10) + 1)) y: uint256 = self.newton_y(A_gamma[0], A_gamma[1], xp, D, i) dy: uint256 = (xp[i] - y) * PRECISION / price_scale_i xp[i] = y # Price calc p: uint256 = 0 if calc_price and dy > 10**5 and token_amount > 10**5: # p_i = dD / D0 * sum'(p_k * x_k) / (dy - dD / D0 * y0) S: uint256 = 0 precision: uint256 = precisions[0] if i == 1: S = xx[0] * precisions[0] precision = precisions[1] else: S = xx[1] * precisions[1] S = S * dD / D0 p = S * PRECISION / (dy * precision - dD * xx[i] * precision / D0) if i == 0: p = (10**18)**2 / p return dy, p, D, xp @internal @pure def sqrt_int(x: uint256) -> uint256: """ Originating from: https://github.com/vyperlang/vyper/issues/1266 """ if x == 0: return 0 z: uint256 = (x + 10**18) / 2 y: uint256 = x for i in range(256): if z == y: return y y = z z = (x * 10**18 / z + z) / 2 raise "Did not converge" # External Functions @payable @external @nonreentrant('lock') def exchange(i: uint256, j: uint256, dx: uint256, min_dy: uint256, use_eth: bool = False, receiver: address = msg.sender) -> uint256: """ Exchange using WETH by default """ return self._exchange(msg.sender, msg.value, i, j, dx, min_dy, use_eth, receiver, ZERO_ADDRESS, EMPTY_BYTES32) @payable @external @nonreentrant('lock') def exchange_underlying(i: uint256, j: uint256, dx: uint256, min_dy: uint256, receiver: address = msg.sender) -> uint256: """ Exchange using ETH """ return self._exchange(msg.sender, msg.value, i, j, dx, min_dy, True, receiver, ZERO_ADDRESS, EMPTY_BYTES32) @payable @external @nonreentrant('lock') def exchange_extended(i: uint256, j: uint256, dx: uint256, min_dy: uint256, use_eth: bool, sender: address, receiver: address, cb: bytes32) -> uint256: assert cb != EMPTY_BYTES32 # dev: No callback specified return self._exchange(sender, msg.value, i, j, dx, min_dy, use_eth, receiver, msg.sender, cb) @payable @external @nonreentrant('lock') def add_liquidity(amounts: uint256[N_COINS], min_mint_amount: uint256, use_eth: bool = False, receiver: address = msg.sender) -> uint256: assert amounts[0] > 0 or amounts[1] > 0 # dev: no coins to add A_gamma: uint256[2] = self._A_gamma() xp: uint256[N_COINS] = self.balances amountsp: uint256[N_COINS] = empty(uint256[N_COINS]) xx: uint256[N_COINS] = empty(uint256[N_COINS]) d_token: uint256 = 0 d_token_fee: uint256 = 0 old_D: uint256 = 0 xp_old: uint256[N_COINS] = xp for i in range(N_COINS): bal: uint256 = xp[i] + amounts[i] xp[i] = bal self.balances[i] = bal xx = xp precisions: uint256[2] = self._get_precisions() price_scale: uint256 = self.price_scale * precisions[1] xp = [xp[0] * precisions[0], xp[1] * price_scale / PRECISION] xp_old = [xp_old[0] * precisions[0], xp_old[1] * price_scale / PRECISION] if not use_eth: assert msg.value == 0 # dev: nonzero eth amount for i in range(N_COINS): coin: address = self.coins[i] if use_eth and coin == WETH20: assert msg.value == amounts[i] # dev: incorrect eth amount if amounts[i] > 0: if (not use_eth) or (coin != WETH20): response: Bytes[32] = raw_call( coin, _abi_encode( msg.sender, self, amounts[i], method_id=method_id("transferFrom(address,address,uint256)"), ), max_outsize=32, ) if len(response) != 0: assert convert(response, bool) # dev: failed transfer if coin == WETH20: WETH(WETH20).withdraw(amounts[i]) amountsp[i] = xp[i] - xp_old[i] t: uint256 = self.future_A_gamma_time if t > 0: old_D = self.newton_D(A_gamma[0], A_gamma[1], xp_old) if block.timestamp >= t: self.future_A_gamma_time = 1 else: old_D = self.D D: uint256 = self.newton_D(A_gamma[0], A_gamma[1], xp) lp_token: address = self.token token_supply: uint256 = CurveToken(lp_token).totalSupply() if old_D > 0: d_token = token_supply * D / old_D - token_supply else: d_token = self.get_xcp(D) # making initial virtual price equal to 1 assert d_token > 0 # dev: nothing minted if old_D > 0: d_token_fee = self._calc_token_fee(amountsp, xp) * d_token / 10**10 + 1 d_token -= d_token_fee token_supply += d_token CurveToken(lp_token).mint(receiver, d_token) # Calculate price # p_i * (dx_i - dtoken / token_supply * xx_i) = sum{k!=i}(p_k * (dtoken / token_supply * xx_k - dx_k)) # Simplified for 2 coins p: uint256 = 0 if d_token > 10**5: if amounts[0] == 0 or amounts[1] == 0: S: uint256 = 0 precision: uint256 = 0 ix: uint256 = 0 if amounts[0] == 0: S = xx[0] * precisions[0] precision = precisions[1] ix = 1 else: S = xx[1] * precisions[1] precision = precisions[0] S = S * d_token / token_supply p = S * PRECISION / (amounts[ix] * precision - d_token * xx[ix] * precision / token_supply) if ix == 0: p = (10**18)**2 / p self.tweak_price(A_gamma, xp, p, D) else: self.D = D self.virtual_price = 10**18 self.xcp_profit = 10**18 CurveToken(lp_token).mint(receiver, d_token) assert d_token >= min_mint_amount, "Slippage" log AddLiquidity(receiver, amounts, d_token_fee, token_supply) return d_token @external @nonreentrant('lock') def remove_liquidity(_amount: uint256, min_amounts: uint256[N_COINS], use_eth: bool = False, receiver: address = msg.sender): """ This withdrawal method is very safe, does no complex math """ lp_token: address = self.token total_supply: uint256 = CurveToken(lp_token).totalSupply() CurveToken(lp_token).burnFrom(msg.sender, _amount) balances: uint256[N_COINS] = self.balances amount: uint256 = _amount - 1 # Make rounding errors favoring other LPs a tiny bit for i in range(N_COINS): d_balance: uint256 = balances[i] * amount / total_supply assert d_balance >= min_amounts[i] self.balances[i] = balances[i] - d_balance balances[i] = d_balance # now it's the amounts going out coin: address = self.coins[i] if use_eth and coin == WETH20: raw_call(receiver, b"", value=d_balance) else: if coin == WETH20: WETH(WETH20).deposit(value=d_balance) response: Bytes[32] = raw_call( coin, _abi_encode(receiver, d_balance, method_id=method_id("transfer(address,uint256)")), max_outsize=32, ) if len(response) != 0: assert convert(response, bool) D: uint256 = self.D self.D = D - D * amount / total_supply log RemoveLiquidity(msg.sender, balances, total_supply - _amount) @external @nonreentrant('lock') def remove_liquidity_one_coin(token_amount: uint256, i: uint256, min_amount: uint256, use_eth: bool = False, receiver: address = msg.sender) -> uint256: A_gamma: uint256[2] = self._A_gamma() dy: uint256 = 0 D: uint256 = 0 p: uint256 = 0 xp: uint256[N_COINS] = empty(uint256[N_COINS]) future_A_gamma_time: uint256 = self.future_A_gamma_time dy, p, D, xp = self._calc_withdraw_one_coin(A_gamma, token_amount, i, (future_A_gamma_time > 0), True) assert dy >= min_amount, "Slippage" if block.timestamp >= future_A_gamma_time: self.future_A_gamma_time = 1 self.balances[i] -= dy CurveToken(self.token).burnFrom(msg.sender, token_amount) coin: address = self.coins[i] if use_eth and coin == WETH20: raw_call(receiver, b"", value=dy) else: if coin == WETH20: WETH(WETH20).deposit(value=dy) response: Bytes[32] = raw_call( coin, _abi_encode(receiver, dy, method_id=method_id("transfer(address,uint256)")), max_outsize=32, ) if len(response) != 0: assert convert(response, bool) self.tweak_price(A_gamma, xp, p, D) log RemoveLiquidityOne(msg.sender, token_amount, i, dy) return dy @external @nonreentrant('lock') def claim_admin_fees(): self._claim_admin_fees() # Admin parameters @external def ramp_A_gamma(future_A: uint256, future_gamma: uint256, future_time: uint256): assert msg.sender == Factory(self.factory).admin() # dev: only owner assert block.timestamp > self.initial_A_gamma_time + (MIN_RAMP_TIME-1) assert future_time > block.timestamp + (MIN_RAMP_TIME-1) # dev: insufficient time A_gamma: uint256[2] = self._A_gamma() initial_A_gamma: uint256 = shift(A_gamma[0], 128) initial_A_gamma = bitwise_or(initial_A_gamma, A_gamma[1]) assert future_A > MIN_A-1 assert future_A < MAX_A+1 assert future_gamma > MIN_GAMMA-1 assert future_gamma < MAX_GAMMA+1 ratio: uint256 = 10**18 * future_A / A_gamma[0] assert ratio < 10**18 * MAX_A_CHANGE + 1 assert ratio > 10**18 / MAX_A_CHANGE - 1 ratio = 10**18 * future_gamma / A_gamma[1] assert ratio < 10**18 * MAX_A_CHANGE + 1 assert ratio > 10**18 / MAX_A_CHANGE - 1 self.initial_A_gamma = initial_A_gamma self.initial_A_gamma_time = block.timestamp future_A_gamma: uint256 = shift(future_A, 128) future_A_gamma = bitwise_or(future_A_gamma, future_gamma) self.future_A_gamma_time = future_time self.future_A_gamma = future_A_gamma log RampAgamma(A_gamma[0], future_A, A_gamma[1], future_gamma, block.timestamp, future_time) @external def stop_ramp_A_gamma(): assert msg.sender == Factory(self.factory).admin() # dev: only owner A_gamma: uint256[2] = self._A_gamma() current_A_gamma: uint256 = shift(A_gamma[0], 128) current_A_gamma = bitwise_or(current_A_gamma, A_gamma[1]) self.initial_A_gamma = current_A_gamma self.future_A_gamma = current_A_gamma self.initial_A_gamma_time = block.timestamp self.future_A_gamma_time = block.timestamp # now (block.timestamp < t1) is always False, so we return saved A log StopRampA(A_gamma[0], A_gamma[1], block.timestamp) @external def commit_new_parameters( _new_mid_fee: uint256, _new_out_fee: uint256, _new_admin_fee: uint256, _new_fee_gamma: uint256, _new_allowed_extra_profit: uint256, _new_adjustment_step: uint256, _new_ma_half_time: uint256, ): assert msg.sender == Factory(self.factory).admin() # dev: only owner assert self.admin_actions_deadline == 0 # dev: active action new_mid_fee: uint256 = _new_mid_fee new_out_fee: uint256 = _new_out_fee new_admin_fee: uint256 = _new_admin_fee new_fee_gamma: uint256 = _new_fee_gamma new_allowed_extra_profit: uint256 = _new_allowed_extra_profit new_adjustment_step: uint256 = _new_adjustment_step new_ma_half_time: uint256 = _new_ma_half_time # Fees if new_out_fee < MAX_FEE+1: assert new_out_fee > MIN_FEE-1 # dev: fee is out of range else: new_out_fee = self.out_fee if new_mid_fee > MAX_FEE: new_mid_fee = self.mid_fee assert new_mid_fee <= new_out_fee # dev: mid-fee is too high if new_admin_fee > MAX_ADMIN_FEE: new_admin_fee = self.admin_fee # AMM parameters if new_fee_gamma < 10**18: assert new_fee_gamma > 0 # dev: fee_gamma out of range [1 .. 10**18] else: new_fee_gamma = self.fee_gamma if new_allowed_extra_profit > 10**18: new_allowed_extra_profit = self.allowed_extra_profit if new_adjustment_step > 10**18: new_adjustment_step = self.adjustment_step # MA if new_ma_half_time < 7*86400: assert new_ma_half_time > 0 # dev: MA time should be longer than 1 second else: new_ma_half_time = self.ma_half_time _deadline: uint256 = block.timestamp + ADMIN_ACTIONS_DELAY self.admin_actions_deadline = _deadline self.future_admin_fee = new_admin_fee self.future_mid_fee = new_mid_fee self.future_out_fee = new_out_fee self.future_fee_gamma = new_fee_gamma self.future_allowed_extra_profit = new_allowed_extra_profit self.future_adjustment_step = new_adjustment_step self.future_ma_half_time = new_ma_half_time log CommitNewParameters(_deadline, new_admin_fee, new_mid_fee, new_out_fee, new_fee_gamma, new_allowed_extra_profit, new_adjustment_step, new_ma_half_time) @external @nonreentrant('lock') def apply_new_parameters(): assert msg.sender == Factory(self.factory).admin() # dev: only owner assert block.timestamp >= self.admin_actions_deadline # dev: insufficient time assert self.admin_actions_deadline != 0 # dev: no active action self.admin_actions_deadline = 0 admin_fee: uint256 = self.future_admin_fee if self.admin_fee != admin_fee: self._claim_admin_fees() self.admin_fee = admin_fee mid_fee: uint256 = self.future_mid_fee self.mid_fee = mid_fee out_fee: uint256 = self.future_out_fee self.out_fee = out_fee fee_gamma: uint256 = self.future_fee_gamma self.fee_gamma = fee_gamma allowed_extra_profit: uint256 = self.future_allowed_extra_profit self.allowed_extra_profit = allowed_extra_profit adjustment_step: uint256 = self.future_adjustment_step self.adjustment_step = adjustment_step ma_half_time: uint256 = self.future_ma_half_time self.ma_half_time = ma_half_time log NewParameters(admin_fee, mid_fee, out_fee, fee_gamma, allowed_extra_profit, adjustment_step, ma_half_time) @external def revert_new_parameters(): assert msg.sender == Factory(self.factory).admin() # dev: only owner self.admin_actions_deadline = 0 # View Methods @external @view def get_dy(i: uint256, j: uint256, dx: uint256) -> uint256: assert i != j # dev: same input and output coin assert i < N_COINS # dev: coin index out of range assert j < N_COINS # dev: coin index out of range precisions: uint256[2] = self._get_precisions() price_scale: uint256 = self.price_scale * precisions[1] xp: uint256[N_COINS] = self.balances A_gamma: uint256[2] = self._A_gamma() D: uint256 = self.D if self.future_A_gamma_time > 0: D = self.newton_D(A_gamma[0], A_gamma[1], self.xp()) xp[i] += dx xp = [xp[0] * precisions[0], xp[1] * price_scale / PRECISION] y: uint256 = self.newton_y(A_gamma[0], A_gamma[1], xp, D, j) dy: uint256 = xp[j] - y - 1 xp[j] = y if j > 0: dy = dy * PRECISION / price_scale else: dy /= precisions[0] dy -= self._fee(xp) * dy / 10**10 return dy @view @external def calc_token_amount(amounts: uint256[N_COINS]) -> uint256: token_supply: uint256 = CurveToken(self.token).totalSupply() precisions: uint256[2] = self._get_precisions() price_scale: uint256 = self.price_scale * precisions[1] A_gamma: uint256[2] = self._A_gamma() xp: uint256[N_COINS] = self.xp() amountsp: uint256[N_COINS] = [ amounts[0] * precisions[0], amounts[1] * price_scale / PRECISION] D0: uint256 = self.D if self.future_A_gamma_time > 0: D0 = self.newton_D(A_gamma[0], A_gamma[1], xp) xp[0] += amountsp[0] xp[1] += amountsp[1] D: uint256 = self.newton_D(A_gamma[0], A_gamma[1], xp) d_token: uint256 = token_supply * D / D0 - token_supply d_token -= self._calc_token_fee(amountsp, xp) * d_token / 10**10 + 1 return d_token @view @external def calc_withdraw_one_coin(token_amount: uint256, i: uint256) -> uint256: return self._calc_withdraw_one_coin(self._A_gamma(), token_amount, i, True, False)[0] @external @view def lp_price() -> uint256: """ Approximate LP token price """ return 2 * self.virtual_price * self.sqrt_int(self.internal_price_oracle()) / 10**18 @view @external def A() -> uint256: return self._A_gamma()[0] @view @external def gamma() -> uint256: return self._A_gamma()[1] @external @view def fee() -> uint256: return self._fee(self.xp()) @external @view def get_virtual_price() -> uint256: return 10**18 * self.get_xcp(self.D) / CurveToken(self.token).totalSupply() @external @view def price_oracle() -> uint256: return self.internal_price_oracle() # Initializer @external def initialize( A: uint256, gamma: uint256, mid_fee: uint256, out_fee: uint256, allowed_extra_profit: uint256, fee_gamma: uint256, adjustment_step: uint256, admin_fee: uint256, ma_half_time: uint256, initial_price: uint256, _token: address, _coins: address[N_COINS], _precisions: uint256, ): assert self.mid_fee == 0 # dev: check that we call it from factory self.factory = msg.sender # Pack A and gamma: # shifted A + gamma A_gamma: uint256 = shift(A, 128) A_gamma = bitwise_or(A_gamma, gamma) self.initial_A_gamma = A_gamma self.future_A_gamma = A_gamma self.mid_fee = mid_fee self.out_fee = out_fee self.allowed_extra_profit = allowed_extra_profit self.fee_gamma = fee_gamma self.adjustment_step = adjustment_step self.admin_fee = admin_fee self.price_scale = initial_price self._price_oracle = initial_price self.last_prices = initial_price self.last_prices_timestamp = block.timestamp self.ma_half_time = ma_half_time self.xcp_profit_a = 10**18 self.token = _token self.coins = _coins self.PRECISIONS = _precisions[{"name":"TokenExchange","inputs":[{"name":"buyer","type":"address","indexed":true},{"name":"sold_id","type":"uint256","indexed":false},{"name":"tokens_sold","type":"uint256","indexed":false},{"name":"bought_id","type":"uint256","indexed":false},{"name":"tokens_bought","type":"uint256","indexed":false}],"anonymous":false,"type":"event"},{"name":"AddLiquidity","inputs":[{"name":"provider","type":"address","indexed":true},{"name":"token_amounts","type":"uint256[2]","indexed":false},{"name":"fee","type":"uint256","indexed":false},{"name":"token_supply","type":"uint256","indexed":false}],"anonymous":false,"type":"event"},{"name":"RemoveLiquidity","inputs":[{"name":"provider","type":"address","indexed":true},{"name":"token_amounts","type":"uint256[2]","indexed":false},{"name":"token_supply","type":"uint256","indexed":false}],"anonymous":false,"type":"event"},{"name":"RemoveLiquidityOne","inputs":[{"name":"provider","type":"address","indexed":true},{"name":"token_amount","type":"uint256","indexed":false},{"name":"coin_index","type":"uint256","indexed":false},{"name":"coin_amount","type":"uint256","indexed":false}],"anonymous":false,"type":"event"},{"name":"CommitNewParameters","inputs":[{"name":"deadline","type":"uint256","indexed":true},{"name":"admin_fee","type":"uint256","indexed":false},{"name":"mid_fee","type":"uint256","indexed":false},{"name":"out_fee","type":"uint256","indexed":false},{"name":"fee_gamma","type":"uint256","indexed":false},{"name":"allowed_extra_profit","type":"uint256","indexed":false},{"name":"adjustment_step","type":"uint256","indexed":false},{"name":"ma_half_time","type":"uint256","indexed":false}],"anonymous":false,"type":"event"},{"name":"NewParameters","inputs":[{"name":"admin_fee","type":"uint256","indexed":false},{"name":"mid_fee","type":"uint256","indexed":false},{"name":"out_fee","type":"uint256","indexed":false},{"name":"fee_gamma","type":"uint256","indexed":false},{"name":"allowed_extra_profit","type":"uint256","indexed":false},{"name":"adjustment_step","type":"uint256","indexed":false},{"name":"ma_half_time","type":"uint256","indexed":false}],"anonymous":false,"type":"event"},{"name":"RampAgamma","inputs":[{"name":"initial_A","type":"uint256","indexed":false},{"name":"future_A","type":"uint256","indexed":false},{"name":"initial_gamma","type":"uint256","indexed":false},{"name":"future_gamma","type":"uint256","indexed":false},{"name":"initial_time","type":"uint256","indexed":false},{"name":"future_time","type":"uint256","indexed":false}],"anonymous":false,"type":"event"},{"name":"StopRampA","inputs":[{"name":"current_A","type":"uint256","indexed":false},{"name":"current_gamma","type":"uint256","indexed":false},{"name":"time","type":"uint256","indexed":false}],"anonymous":false,"type":"event"},{"name":"ClaimAdminFee","inputs":[{"name":"admin","type":"address","indexed":true},{"name":"tokens","type":"uint256","indexed":false}],"anonymous":false,"type":"event"},{"stateMutability":"nonpayable","type":"constructor","inputs":[{"name":"_weth","type":"address"}],"outputs":[]},{"stateMutability":"payable","type":"fallback"},{"stateMutability":"payable","type":"function","name":"exchange","inputs":[{"name":"i","type":"uint256"},{"name":"j","type":"uint256"},{"name":"dx","type":"uint256"},{"name":"min_dy","type":"uint256"}],"outputs":[{"name":"","type":"uint256"}]},{"stateMutability":"payable","type":"function","name":"exchange","inputs":[{"name":"i","type":"uint256"},{"name":"j","type":"uint256"},{"name":"dx","type":"uint256"},{"name":"min_dy","type":"uint256"},{"name":"use_eth","type":"bool"}],"outputs":[{"name":"","type":"uint256"}]},{"stateMutability":"payable","type":"function","name":"exchange","inputs":[{"name":"i","type":"uint256"},{"name":"j","type":"uint256"},{"name":"dx","type":"uint256"},{"name":"min_dy","type":"uint256"},{"name":"use_eth","type":"bool"},{"name":"receiver","type":"address"}],"outputs":[{"name":"","type":"uint256"}]},{"stateMutability":"payable","type":"function","name":"exchange_underlying","inputs":[{"name":"i","type":"uint256"},{"name":"j","type":"uint256"},{"name":"dx","type":"uint256"},{"name":"min_dy","type":"uint256"}],"outputs":[{"name":"","type":"uint256"}]},{"stateMutability":"payable","type":"function","name":"exchange_underlying","inputs":[{"name":"i","type":"uint256"},{"name":"j","type":"uint256"},{"name":"dx","type":"uint256"},{"name":"min_dy","type":"uint256"},{"name":"receiver","type":"address"}],"outputs":[{"name":"","type":"uint256"}]},{"stateMutability":"payable","type":"function","name":"exchange_extended","inputs":[{"name":"i","type":"uint256"},{"name":"j","type":"uint256"},{"name":"dx","type":"uint256"},{"name":"min_dy","type":"uint256"},{"name":"use_eth","type":"bool"},{"name":"sender","type":"address"},{"name":"receiver","type":"address"},{"name":"cb","type":"bytes32"}],"outputs":[{"name":"","type":"uint256"}]},{"stateMutability":"payable","type":"function","name":"add_liquidity","inputs":[{"name":"amounts","type":"uint256[2]"}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Download: CSV Export ][ Download: CSV Export ]A contract address hosts a smart contract, which is a set of code stored on the blockchain that runs when predetermined conditions are met. Learn more about addresses in our Knowledge Base.
