Metapool Deposits
While Curve metapools support swaps between base pool coins, the base pool LP token and metapool coins, they do not allow liquidity providers to deposit and/or withdraw base pool coins.
For example, the GUSD metapool is a pool consisting of GUSD and 3CRV (the LP token of the 3Pool) and allows for swaps between GUSD, DAI, USDC, USDT and 3CRV. However, liquidity providers are not able to deposit DAI, USDC or USDT to the pool directly. The main reason why this is not possible lies in the maximum byte code size of contracts. Metapools are complex and can therefore end up being very close to the contract byte code size limit. In order to overcome this restriction, liquidity can be added and removed to and from a metapool in the base pool’s coins through a metapool deposit zap.
The template source code for a metapool deposit “zap” may be viewed on GitHub.
Note
Metapool deposit zaps contain the following private and hardcoded constants:
N_COINS: Number of coins in the metapool (excluding base pool coins)BASE_N_COINS: Number of coins in the base poolN_ALL_COINS: All coins in the metapool, excluding the base pool LP token (N_COINS + BASE_N_COINS - 1)
Get Deposit Zap Information¶
DepositZap.pool¶
DepositZap.pool() → address: view
Getter for the metapool associated with this deposit contract.
Source code
DepositZap.base_pool¶
DepositZap.base_pool() → address: view
Getter for the base pool of the metapool associated with this deposit contract.
Source code
base_pool: public(address)
...
@external
def __init__(_pool: address, _token: address):
"""
@notice Contract constructor
@param _pool Metapool address
@param _token Pool LP token address
"""
self.pool = _pool
self.token = _token
base_pool: address = CurveMeta(_pool).base_pool()
self.base_pool = base_pool
...
DepositZap.base_coins¶
DepositZap.base_coins(i: uint256) → address: view
Getter for the array of the coins of the metapool’s base pool.
| Input | Type | Description |
|---|---|---|
i | int128 | Index of the coin for which to get the address |
Source code
base_coins: public(address[BASE_N_COINS])
...
@external
def __init__(_pool: address, _token: address):
"""
@notice Contract constructor
@param _pool Metapool address
@param _token Pool LP token address
"""
self.pool = _pool
self.token = _token
base_pool: address = CurveMeta(_pool).base_pool()
self.base_pool = base_pool
for i in range(N_COINS):
coin: address = CurveMeta(_pool).coins(i)
self.coins[i] = coin
# approve coins for infinite transfers
_response: Bytes[32] = raw_call(
coin,
concat(
method_id("approve(address,uint256)"),
convert(_pool, bytes32),
convert(MAX_UINT256, bytes32),
),
max_outsize=32,
)
if len(_response) > 0:
assert convert(_response, bool)
for i in range(BASE_N_COINS):
coin: address = CurveBase(base_pool).coins(i)
self.base_coins[i] = coin
# approve underlying coins for infinite transfers
_response: Bytes[32] = raw_call(
coin,
concat(
method_id("approve(address,uint256)"),
convert(base_pool, bytes32),
convert(MAX_UINT256, bytes32),
),
max_outsize=32,
)
if len(_response) > 0:
assert convert(_response, bool)
...
DepositZap.token¶
DepositZap.token() → address: view
Getter for the LP token of the associated metapool.
Source code
Add/Remove Liquidity¶
Note
For methods taking the index argument i, a number in the range from 0 to N_ALL_COINS - 1 is valid. This refers to all coins apart from the base pool LP token.
DepositZap.add_liquidity¶
DepositZap.add_liquidity(_amounts: uint256[N_ALL_COINS], _min_mint_amount: uint256) → uint256
Wrap underlying coins and deposit them in the pool. Returns the amount of LP token received in exchange for depositing.
| Input | Type | Description |
|---|---|---|
_amounts | uint256[N_ALL_COINS] | List of amounts of underlying coins to deposit |
_min_mint_amount | uint256 | Minimum amount of LP tokens to mint from the deposit |
Emits: AddLiquidity Transfer
Source code
@external
def add_liquidity(_amounts: uint256[N_ALL_COINS], _min_mint_amount: uint256) -> uint256:
"""
@notice Wrap underlying coins and deposit them in the pool
@param _amounts List of amounts of underlying coins to deposit
@param _min_mint_amount Minimum amount of LP tokens to mint from the deposit
@return Amount of LP tokens received by depositing
"""
meta_amounts: uint256[N_COINS] = empty(uint256[N_COINS])
base_amounts: uint256[BASE_N_COINS] = empty(uint256[BASE_N_COINS])
deposit_base: bool = False
# Transfer all coins in
for i in range(N_ALL_COINS):
amount: uint256 = _amounts[i]
if amount == 0:
continue
coin: address = ZERO_ADDRESS
if i < MAX_COIN:
coin = self.coins[i]
meta_amounts[i] = amount
else:
x: int128 = i - MAX_COIN
coin = self.base_coins[x]
base_amounts[x] = amount
deposit_base = True
# "safeTransferFrom" which works for ERC20s which return bool or not
_response: Bytes[32] = raw_call(
coin,
concat(
method_id("transferFrom(address,address,uint256)"),
convert(msg.sender, bytes32),
convert(self, bytes32),
convert(amount, bytes32),
),
max_outsize=32,
) # dev: failed transfer
if len(_response) > 0:
assert convert(_response, bool) # dev: failed transfer
# end "safeTransferFrom"
# Handle potential Tether fees
if coin == FEE_ASSET:
amount = ERC20(FEE_ASSET).balanceOf(self)
if i < MAX_COIN:
meta_amounts[i] = amount
else:
base_amounts[i - MAX_COIN] = amount
# Deposit to the base pool
if deposit_base:
CurveBase(self.base_pool).add_liquidity(base_amounts, 0)
meta_amounts[MAX_COIN] = ERC20(self.coins[MAX_COIN]).balanceOf(self)
# Deposit to the meta pool
CurveMeta(self.pool).add_liquidity(meta_amounts, _min_mint_amount)
# Transfer meta token back
lp_token: address = self.token
lp_amount: uint256 = ERC20(lp_token).balanceOf(self)
assert ERC20(lp_token).transfer(msg.sender, lp_amount)
return lp_amount
DepositZap.remove_liquidity¶
DepositZap.remove_liquidity(_amount: uint256, _min_amounts: uint256[N_ALL_COINS]) → uint256[N_ALL_COINS]
Withdraw and unwrap coins from the pool. Returns a list of amounts (uint256[N_ALL_COINS]) of underlying coins that were withdrawn.
| Input | Type | Description |
|---|---|---|
_amount | uint256 | Quantity of LP tokens to burn in the withdrawal |
_min_amounts | uint256[N_ALL_COINS] | Minimum amounts of underlying coins to receive |
Emits: RemoveLiquidity Transfer
Source code
@external
def remove_liquidity(_amount: uint256, _min_amounts: uint256[N_ALL_COINS]) -> uint256[N_ALL_COINS]:
"""
@notice Withdraw and unwrap coins from the pool
@dev Withdrawal amounts are based on current deposit ratios
@param _amount Quantity of LP tokens to burn in the withdrawal
@param _min_amounts Minimum amounts of underlying coins to receive
@return List of amounts of underlying coins that were withdrawn
"""
_token: address = self.token
assert ERC20(_token).transferFrom(msg.sender, self, _amount)
min_amounts_meta: uint256[N_COINS] = empty(uint256[N_COINS])
min_amounts_base: uint256[BASE_N_COINS] = empty(uint256[BASE_N_COINS])
amounts: uint256[N_ALL_COINS] = empty(uint256[N_ALL_COINS])
# Withdraw from meta
for i in range(MAX_COIN):
min_amounts_meta[i] = _min_amounts[i]
CurveMeta(self.pool).remove_liquidity(_amount, min_amounts_meta)
# Withdraw from base
_base_amount: uint256 = ERC20(self.coins[MAX_COIN]).balanceOf(self)
for i in range(BASE_N_COINS):
min_amounts_base[i] = _min_amounts[MAX_COIN+i]
CurveBase(self.base_pool).remove_liquidity(_base_amount, min_amounts_base)
# Transfer all coins out
for i in range(N_ALL_COINS):
coin: address = ZERO_ADDRESS
if i < MAX_COIN:
coin = self.coins[i]
else:
coin = self.base_coins[i - MAX_COIN]
amounts[i] = ERC20(coin).balanceOf(self)
# "safeTransfer" which works for ERC20s which return bool or not
_response: Bytes[32] = raw_call(
coin,
concat(
method_id("transfer(address,uint256)"),
convert(msg.sender, bytes32),
convert(amounts[i], bytes32),
),
max_outsize=32,
) # dev: failed transfer
if len(_response) > 0:
assert convert(_response, bool) # dev: failed transfer
# end "safeTransfer"
return amounts
DepositZap.remove_liquidity_one_coin¶
DepositZap.remove_liquidity_one_coin(_token_amount: uint256, i: int128, _min_amount: uint256) → uint256
Withdraw and unwrap a single coin from the metapool. Returns the amount of the underlying coin received.
| Input | Type | Description |
|---|---|---|
_token_amount | uint256 | Amount of LP tokens to burn in the withdrawal |
i | int128 | Index value of the coin to withdraw |
_min_amount | uint256 | Minimum amount of underlying coin to receive |
Emits: RemoveLiquidityOne Transfer
Source code
@external
def remove_liquidity_one_coin(_token_amount: uint256, i: int128, _min_amount: uint256) -> uint256:
"""
@notice Withdraw and unwrap a single coin from the pool
@param _token_amount Amount of LP tokens to burn in the withdrawal
@param i Index value of the coin to withdraw
@param _min_amount Minimum amount of underlying coin to receive
@return Amount of underlying coin received
"""
assert ERC20(self.token).transferFrom(msg.sender, self, _token_amount)
coin: address = ZERO_ADDRESS
if i < MAX_COIN:
coin = self.coins[i]
# Withdraw a metapool coin
CurveMeta(self.pool).remove_liquidity_one_coin(_token_amount, i, _min_amount)
else:
coin = self.base_coins[i - MAX_COIN]
# Withdraw a base pool coin
CurveMeta(self.pool).remove_liquidity_one_coin(_token_amount, MAX_COIN, 0)
CurveBase(self.base_pool).remove_liquidity_one_coin(
ERC20(self.coins[MAX_COIN]).balanceOf(self), i-MAX_COIN, _min_amount
)
# Tranfer the coin out
coin_amount: uint256 = ERC20(coin).balanceOf(self)
# "safeTransfer" which works for ERC20s which return bool or not
_response: Bytes[32] = raw_call(
coin,
concat(
method_id("transfer(address,uint256)"),
convert(msg.sender, bytes32),
convert(coin_amount, bytes32),
),
max_outsize=32,
) # dev: failed transfer
if len(_response) > 0:
assert convert(_response, bool) # dev: failed transfer
# end "safeTransfer"
return coin_amount
DepositZap.remove_liquidity_imbalance¶
DepositZap.remove_liquidity_imbalance(_amounts: uint256[N_ALL_COINS], _max_burn_amount: uint256) → uint256
Withdraw coins from the pool in an imbalanced amount. Returns the actual amount of the LP token burned in the withdrawal.
| Input | Type | Description |
|---|---|---|
_amounts | uint256[N_ALL_COINS] | List of amounts of underlying coins to withdraw |
_max_burn_amount | uint256 | Maximum amount of LP token to burn in the withdrawal |
Emits: RemoveLiquidityImbalance Transfer
Source code
@external
def remove_liquidity_imbalance(_amounts: uint256[N_ALL_COINS], _max_burn_amount: uint256) -> uint256:
"""
@notice Withdraw coins from the pool in an imbalanced amount
@param _amounts List of amounts of underlying coins to withdraw
@param _max_burn_amount Maximum amount of LP token to burn in the withdrawal
@return Actual amount of the LP token burned in the withdrawal
"""
base_pool: address = self.base_pool
meta_pool: address = self.pool
base_coins: address[BASE_N_COINS] = self.base_coins
meta_coins: address[N_COINS] = self.coins
lp_token: address = self.token
fee: uint256 = CurveBase(base_pool).fee() * BASE_N_COINS / (4 * (BASE_N_COINS - 1))
fee += fee * FEE_IMPRECISION / FEE_DENOMINATOR # Overcharge to account for imprecision
# Transfer the LP token in
assert ERC20(lp_token).transferFrom(msg.sender, self, _max_burn_amount)
withdraw_base: bool = False
amounts_base: uint256[BASE_N_COINS] = empty(uint256[BASE_N_COINS])
amounts_meta: uint256[N_COINS] = empty(uint256[N_COINS])
leftover_amounts: uint256[N_COINS] = empty(uint256[N_COINS])
# Prepare quantities
for i in range(MAX_COIN):
amounts_meta[i] = _amounts[i]
for i in range(BASE_N_COINS):
amount: uint256 = _amounts[MAX_COIN + i]
if amount != 0:
amounts_base[i] = amount
withdraw_base = True
if withdraw_base:
amounts_meta[MAX_COIN] = CurveBase(self.base_pool).calc_token_amount(amounts_base, False)
amounts_meta[MAX_COIN] += amounts_meta[MAX_COIN] * fee / FEE_DENOMINATOR + 1
# Remove liquidity and deposit leftovers back
CurveMeta(meta_pool).remove_liquidity_imbalance(amounts_meta, _max_burn_amount)
if withdraw_base:
CurveBase(base_pool).remove_liquidity_imbalance(amounts_base, amounts_meta[MAX_COIN])
leftover_amounts[MAX_COIN] = ERC20(meta_coins[MAX_COIN]).balanceOf(self)
if leftover_amounts[MAX_COIN] > 0:
CurveMeta(meta_pool).add_liquidity(leftover_amounts, 0)
# Transfer all coins out
for i in range(N_ALL_COINS):
coin: address = ZERO_ADDRESS
amount: uint256 = 0
if i < MAX_COIN:
coin = meta_coins[i]
amount = amounts_meta[i]
else:
coin = base_coins[i - MAX_COIN]
amount = amounts_base[i - MAX_COIN]
# "safeTransfer" which works for ERC20s which return bool or not
if amount > 0:
_response: Bytes[32] = raw_call(
coin,
concat(
method_id("transfer(address,uint256)"),
convert(msg.sender, bytes32),
convert(amount, bytes32),
),
max_outsize=32,
) # dev: failed transfer
if len(_response) > 0:
assert convert(_response, bool) # dev: failed transfer
# end "safeTransfer"
# Transfer the leftover LP token out
leftover: uint256 = ERC20(lp_token).balanceOf(self)
if leftover > 0:
assert ERC20(lp_token).transfer(msg.sender, leftover)
return _max_burn_amount - leftover
DepositZap.calc_withdraw_one_coin¶
DepositZap.calc_withdraw_one_coin(_token_amount: uint256, i: int128) → uint256
Calculate the amount received when withdrawing and unwrapping a single coin. Returns the amount of coin i received.
| Input | Type | Description |
|---|---|---|
_token_amount | uint256 | Amount of LP tokens to burn in the withdrawal |
i | int128 | Index value of the coin to withdraw (i should be in the range from 0 to N_ALL_COINS - 1, where the LP token of the base pool is removed). |
Source code
@view
@external
def calc_withdraw_one_coin(_token_amount: uint256, i: int128) -> uint256:
"""
@notice Calculate the amount received when withdrawing and unwrapping a single coin
@param _token_amount Amount of LP tokens to burn in the withdrawal
@param i Index value of the underlying coin to withdraw
@return Amount of coin received
"""
if i < MAX_COIN:
return CurveMeta(self.pool).calc_withdraw_one_coin(_token_amount, i)
else:
base_tokens: uint256 = CurveMeta(self.pool).calc_withdraw_one_coin(_token_amount, MAX_COIN)
return CurveBase(self.base_pool).calc_withdraw_one_coin(base_tokens, i-MAX_COIN)
DepositZap.calc_token_amount¶
DepositZap.calc_token_amount(_amounts: uint256[N_ALL_COINS], _is_deposit: bool) → uint256
Calculate addition or reduction in token supply from a deposit or withdrawal. Returns the expected amount of LP tokens received.
| Input | Type | Description |
|---|---|---|
_amounts | uint256[N_ALL_COINS] | Amount of each underlying coin being deposited |
_is_deposit | bool | Set True for deposits, False for withdrawals |
Source code
@view
@external
def calc_token_amount(_amounts: uint256[N_ALL_COINS], _is_deposit: bool) -> uint256:
"""
@notice Calculate addition or reduction in token supply from a deposit or withdrawal
@dev This calculation accounts for slippage, but not fees.
Needed to prevent front-running, not for precise calculations!
@param _amounts Amount of each underlying coin being deposited
@param _is_deposit set True for deposits, False for withdrawals
@return Expected amount of LP tokens received
"""
meta_amounts: uint256[N_COINS] = empty(uint256[N_COINS])
base_amounts: uint256[BASE_N_COINS] = empty(uint256[BASE_N_COINS])
for i in range(MAX_COIN):
meta_amounts[i] = _amounts[i]
for i in range(BASE_N_COINS):
base_amounts[i] = _amounts[i + MAX_COIN]
base_tokens: uint256 = CurveBase(self.base_pool).calc_token_amount(base_amounts, _is_deposit)
meta_amounts[MAX_COIN] = base_tokens
return CurveMeta(self.pool).calc_token_amount(meta_amounts, _is_deposit)