ETH Price: $3,197.44 (+0.82%)

Contract

0x0b5e26829B72654620cD431E685FD71ad956E58E
 

Overview

ETH Balance

0.000027779582631437 ETH

Eth Value

$0.09 (@ $3,197.44/ETH)

Token Holdings

More Info

Private Name Tags

TokenTracker

Multichain Info

No addresses found
Transaction Hash
Method
Block
From
To
Eth To Token Tra...120826962021-03-21 14:33:531333 days ago1616337233IN
Uniswap: BTC++
0.00039296 ETH0.00775634116
Eth To Token Tra...116711442021-01-17 6:38:021397 days ago1610865482IN
Uniswap: BTC++
0.0003906 ETH0.0036020644
Eth To Token Tra...116695352021-01-17 0:41:021397 days ago1610844062IN
Uniswap: BTC++
0.00035926 ETH0.0054641460
Eth To Token Tra...116399462021-01-12 11:55:091401 days ago1610452509IN
Uniswap: BTC++
0.00000001 ETH0.0044122966
Token To Eth Tra...113558692020-11-29 20:55:291445 days ago1606683329IN
Uniswap: BTC++
0 ETH0.0007293713.7
Eth To Token Tra...111655592020-10-31 15:41:431474 days ago1604158903IN
Uniswap: BTC++
0.001 ETH0.0036167144
Eth To Token Tra...110569032020-10-14 23:44:121491 days ago1602719052IN
Uniswap: BTC++
0.0004 ETH0.0036969550
Eth To Token Tra...110522992020-10-14 6:52:251492 days ago1602658345IN
Uniswap: BTC++
0.001 ETH0.0031820554
Token To Eth Tra...109527512020-09-28 19:12:201507 days ago1601320340IN
Uniswap: BTC++
0 ETH0.00553935104
Approve109508292020-09-28 11:56:481507 days ago1601294208IN
Uniswap: BTC++
0 ETH0.00610117132
Eth To Token Tra...109475102020-09-27 23:21:431508 days ago1601248903IN
Uniswap: BTC++
0.0001 ETH0.0039187653
Eth To Token Tra...109247542020-09-24 10:23:161512 days ago1600942996IN
Uniswap: BTC++
0.000005 ETH0.005766378
Eth To Token Tra...109155242020-09-23 0:26:141513 days ago1600820774IN
Uniswap: BTC++
0.0001 ETH0.0052496671
Eth To Token Tra...109154242020-09-23 0:07:171513 days ago1600819637IN
Uniswap: BTC++
0.0001 ETH0.0060629982
Eth To Token Tra...109116322020-09-22 9:53:491514 days ago1600768429IN
Uniswap: BTC++
0.0001 ETH0.01338295181
Eth To Token Tra...109053982020-09-21 11:11:311514 days ago1600686691IN
Uniswap: BTC++
0.001 ETH0.01620822275
Eth To Token Tra...108959952020-09-20 0:43:191516 days ago1600562599IN
Uniswap: BTC++
0.00001 ETH0.00820589111
Eth To Token Tra...108958592020-09-20 0:16:451516 days ago1600561005IN
Uniswap: BTC++
0.00001 ETH0.0085016115
Eth To Token Tra...108958322020-09-20 0:08:121516 days ago1600560492IN
Uniswap: BTC++
0.00001 ETH0.0073927100
Eth To Token Tra...108957972020-09-20 0:00:321516 days ago1600560032IN
Uniswap: BTC++
0.00001 ETH0.0073927100
Eth To Token Tra...108957662020-09-19 23:53:561516 days ago1600559636IN
Uniswap: BTC++
0.00001 ETH0.0073187799
Eth To Token Tra...108953472020-09-19 22:18:271516 days ago1600553907IN
Uniswap: BTC++
0.00001 ETH0.00805804109
Eth To Token Tra...108953292020-09-19 22:15:011516 days ago1600553701IN
Uniswap: BTC++
0.00001 ETH0.00761448103
Eth To Token Tra...108952902020-09-19 22:06:091516 days ago1600553169IN
Uniswap: BTC++
0.00001 ETH0.0076884104
Eth To Token Tra...108952492020-09-19 21:56:521516 days ago1600552612IN
Uniswap: BTC++
0.00001 ETH0.0076884104
View all transactions

Latest 25 internal transactions (View All)

Advanced mode:
Parent Transaction Hash Block From To
209030142024-10-06 0:45:5939 days ago1728175559
Uniswap: BTC++
0.00072998 ETH
209028152024-10-06 0:06:1139 days ago1728173171
Uniswap: BTC++
0.00075 ETH
208146082024-09-23 16:54:3551 days ago1727110475
Uniswap: BTC++
0.00430404 ETH
208145872024-09-23 16:50:2351 days ago1727110223
Uniswap: BTC++
0.00428249 ETH
206231832024-08-27 23:23:1178 days ago1724800991
Uniswap: BTC++
0.00082551 ETH
206231822024-08-27 23:22:5978 days ago1724800979
Uniswap: BTC++
0.00317218 ETH
206231822024-08-27 23:22:5978 days ago1724800979
Uniswap: BTC++
0.004 ETH
205594302024-08-19 1:35:3587 days ago1724031335
Uniswap: BTC++
0.00090292 ETH
205594292024-08-19 1:35:2387 days ago1724031323
Uniswap: BTC++
0.00090566 ETH
202028692024-06-30 7:00:23137 days ago1719730823
Uniswap: BTC++
0.00036683 ETH
120826962021-03-21 14:33:531333 days ago1616337233
Uniswap: BTC++
0.00000195 ETH
120457542021-03-15 21:57:021339 days ago1615845422
Uniswap: BTC++
0.00038866 ETH
116711442021-01-17 6:38:021397 days ago1610865482
Uniswap: BTC++
0.00000194 ETH
116399462021-01-12 11:55:091401 days ago1610452509
Uniswap: BTC++
0 ETH
116356992021-01-11 20:03:501402 days ago1610395430
Uniswap: BTC++
3.35914429 ETH
116356992021-01-11 20:03:501402 days ago1610395430
Uniswap: BTC++
3.35710143 ETH
115717182021-01-02 0:34:241412 days ago1609547664
Uniswap: BTC++
0.001998 ETH
115336142020-12-27 4:18:551418 days ago1609042735
Uniswap: BTC++
0.0120874 ETH
115303972020-12-26 16:21:161418 days ago1608999676
Uniswap: BTC++
0.003996 ETH
115299012020-12-26 14:36:111418 days ago1608993371
Uniswap: BTC++
0.000999 ETH
115296922020-12-26 13:52:271418 days ago1608990747
Uniswap: BTC++
0.0000999 ETH
115295232020-12-26 13:14:501418 days ago1608988490
Uniswap: BTC++
0.004995 ETH
115289862020-12-26 11:11:331418 days ago1608981093
Uniswap: BTC++
0.001998 ETH
115265902020-12-26 2:38:531419 days ago1608950333
Uniswap: BTC++
0.0099819 ETH
115253082020-12-25 21:45:001419 days ago1608932700
Uniswap: BTC++
0.004995 ETH
View All Internal Transactions
Loading...
Loading

Minimal Proxy Contract for 0x2157a7894439191e520825fe9399ab8655e0f708

Contract Name:
Vyper_contract

Compiler Version
vyper:0.1.0b4

Optimization Enabled:
N/A

Other Settings:
N/A

Contract Source Code (Vyper language format)

# @title Uniswap Exchange Interface V1
# @notice Source code found at https://github.com/uniswap
# @notice Use at your own risk

contract Factory():
    def getExchange(token_addr: address) -> address: constant

contract Exchange():
    def getEthToTokenOutputPrice(tokens_bought: uint256) -> uint256(wei): constant
    def ethToTokenTransferInput(min_tokens: uint256, deadline: timestamp, recipient: address) -> uint256: modifying
    def ethToTokenTransferOutput(tokens_bought: uint256, deadline: timestamp, recipient: address) -> uint256(wei): modifying

TokenPurchase: event({buyer: indexed(address), eth_sold: indexed(uint256(wei)), tokens_bought: indexed(uint256)})
EthPurchase: event({buyer: indexed(address), tokens_sold: indexed(uint256), eth_bought: indexed(uint256(wei))})
AddLiquidity: event({provider: indexed(address), eth_amount: indexed(uint256(wei)), token_amount: indexed(uint256)})
RemoveLiquidity: event({provider: indexed(address), eth_amount: indexed(uint256(wei)), token_amount: indexed(uint256)})
Transfer: event({_from: indexed(address), _to: indexed(address), _value: uint256})
Approval: event({_owner: indexed(address), _spender: indexed(address), _value: uint256})

name: public(bytes32)                             # Uniswap V1
symbol: public(bytes32)                           # UNI-V1
decimals: public(uint256)                         # 18
totalSupply: public(uint256)                      # total number of UNI in existence
balances: uint256[address]                        # UNI balance of an address
allowances: (uint256[address])[address]           # UNI allowance of one address on another
token: address(ERC20)                             # address of the ERC20 token traded on this contract
factory: Factory                                  # interface for the factory that created this contract

# @dev This function acts as a contract constructor which is not currently supported in contracts deployed
#      using create_with_code_of(). It is called once by the factory during contract creation.
@public
def setup(token_addr: address):
    assert (self.factory == ZERO_ADDRESS and self.token == ZERO_ADDRESS) and token_addr != ZERO_ADDRESS
    self.factory = msg.sender
    self.token = token_addr
    self.name = 0x556e697377617020563100000000000000000000000000000000000000000000
    self.symbol = 0x554e492d56310000000000000000000000000000000000000000000000000000
    self.decimals = 18

# @notice Deposit ETH and Tokens (self.token) at current ratio to mint UNI tokens.
# @dev min_liquidity does nothing when total UNI supply is 0.
# @param min_liquidity Minimum number of UNI sender will mint if total UNI supply is greater than 0.
# @param max_tokens Maximum number of tokens deposited. Deposits max amount if total UNI supply is 0.
# @param deadline Time after which this transaction can no longer be executed.
# @return The amount of UNI minted.
@public
@payable
def addLiquidity(min_liquidity: uint256, max_tokens: uint256, deadline: timestamp) -> uint256:
    assert deadline > block.timestamp and (max_tokens > 0 and msg.value > 0)
    total_liquidity: uint256 = self.totalSupply
    if total_liquidity > 0:
        assert min_liquidity > 0
        eth_reserve: uint256(wei) = self.balance - msg.value
        token_reserve: uint256 = self.token.balanceOf(self)
        token_amount: uint256 = msg.value * token_reserve / eth_reserve + 1
        liquidity_minted: uint256 = msg.value * total_liquidity / eth_reserve
        assert max_tokens >= token_amount and liquidity_minted >= min_liquidity
        self.balances[msg.sender] += liquidity_minted
        self.totalSupply = total_liquidity + liquidity_minted
        assert self.token.transferFrom(msg.sender, self, token_amount)
        log.AddLiquidity(msg.sender, msg.value, token_amount)
        log.Transfer(ZERO_ADDRESS, msg.sender, liquidity_minted)
        return liquidity_minted
    else:
        assert (self.factory != ZERO_ADDRESS and self.token != ZERO_ADDRESS) and msg.value >= 1000000000
        assert self.factory.getExchange(self.token) == self
        token_amount: uint256 = max_tokens
        initial_liquidity: uint256 = as_unitless_number(self.balance)
        self.totalSupply = initial_liquidity
        self.balances[msg.sender] = initial_liquidity
        assert self.token.transferFrom(msg.sender, self, token_amount)
        log.AddLiquidity(msg.sender, msg.value, token_amount)
        log.Transfer(ZERO_ADDRESS, msg.sender, initial_liquidity)
        return initial_liquidity

# @dev Burn UNI tokens to withdraw ETH and Tokens at current ratio.
# @param amount Amount of UNI burned.
# @param min_eth Minimum ETH withdrawn.
# @param min_tokens Minimum Tokens withdrawn.
# @param deadline Time after which this transaction can no longer be executed.
# @return The amount of ETH and Tokens withdrawn.
@public
def removeLiquidity(amount: uint256, min_eth: uint256(wei), min_tokens: uint256, deadline: timestamp) -> (uint256(wei), uint256):
    assert (amount > 0 and deadline > block.timestamp) and (min_eth > 0 and min_tokens > 0)
    total_liquidity: uint256 = self.totalSupply
    assert total_liquidity > 0
    token_reserve: uint256 = self.token.balanceOf(self)
    eth_amount: uint256(wei) = amount * self.balance / total_liquidity
    token_amount: uint256 = amount * token_reserve / total_liquidity
    assert eth_amount >= min_eth and token_amount >= min_tokens
    self.balances[msg.sender] -= amount
    self.totalSupply = total_liquidity - amount
    send(msg.sender, eth_amount)
    assert self.token.transfer(msg.sender, token_amount)
    log.RemoveLiquidity(msg.sender, eth_amount, token_amount)
    log.Transfer(msg.sender, ZERO_ADDRESS, amount)
    return eth_amount, token_amount

# @dev Pricing function for converting between ETH and Tokens.
# @param input_amount Amount of ETH or Tokens being sold.
# @param input_reserve Amount of ETH or Tokens (input type) in exchange reserves.
# @param output_reserve Amount of ETH or Tokens (output type) in exchange reserves.
# @return Amount of ETH or Tokens bought.
@private
@constant
def getInputPrice(input_amount: uint256, input_reserve: uint256, output_reserve: uint256) -> uint256:
    assert input_reserve > 0 and output_reserve > 0
    input_amount_with_fee: uint256 = input_amount * 997
    numerator: uint256 = input_amount_with_fee * output_reserve
    denominator: uint256 = (input_reserve * 1000) + input_amount_with_fee
    return numerator / denominator

# @dev Pricing function for converting between ETH and Tokens.
# @param output_amount Amount of ETH or Tokens being bought.
# @param input_reserve Amount of ETH or Tokens (input type) in exchange reserves.
# @param output_reserve Amount of ETH or Tokens (output type) in exchange reserves.
# @return Amount of ETH or Tokens sold.
@private
@constant
def getOutputPrice(output_amount: uint256, input_reserve: uint256, output_reserve: uint256) -> uint256:
    assert input_reserve > 0 and output_reserve > 0
    numerator: uint256 = input_reserve * output_amount * 1000
    denominator: uint256 = (output_reserve - output_amount) * 997
    return numerator / denominator + 1

@private
def ethToTokenInput(eth_sold: uint256(wei), min_tokens: uint256, deadline: timestamp, buyer: address, recipient: address) -> uint256:
    assert deadline >= block.timestamp and (eth_sold > 0 and min_tokens > 0)
    token_reserve: uint256 = self.token.balanceOf(self)
    tokens_bought: uint256 = self.getInputPrice(as_unitless_number(eth_sold), as_unitless_number(self.balance - eth_sold), token_reserve)
    assert tokens_bought >= min_tokens
    assert self.token.transfer(recipient, tokens_bought)
    log.TokenPurchase(buyer, eth_sold, tokens_bought)
    return tokens_bought

# @notice Convert ETH to Tokens.
# @dev User specifies exact input (msg.value).
# @dev User cannot specify minimum output or deadline.
@public
@payable
def __default__():
    self.ethToTokenInput(msg.value, 1, block.timestamp, msg.sender, msg.sender)

# @notice Convert ETH to Tokens.
# @dev User specifies exact input (msg.value) and minimum output.
# @param min_tokens Minimum Tokens bought.
# @param deadline Time after which this transaction can no longer be executed.
# @return Amount of Tokens bought.
@public
@payable
def ethToTokenSwapInput(min_tokens: uint256, deadline: timestamp) -> uint256:
    return self.ethToTokenInput(msg.value, min_tokens, deadline, msg.sender, msg.sender)

# @notice Convert ETH to Tokens and transfers Tokens to recipient.
# @dev User specifies exact input (msg.value) and minimum output
# @param min_tokens Minimum Tokens bought.
# @param deadline Time after which this transaction can no longer be executed.
# @param recipient The address that receives output Tokens.
# @return Amount of Tokens bought.
@public
@payable
def ethToTokenTransferInput(min_tokens: uint256, deadline: timestamp, recipient: address) -> uint256:
    assert recipient != self and recipient != ZERO_ADDRESS
    return self.ethToTokenInput(msg.value, min_tokens, deadline, msg.sender, recipient)

@private
def ethToTokenOutput(tokens_bought: uint256, max_eth: uint256(wei), deadline: timestamp, buyer: address, recipient: address) -> uint256(wei):
    assert deadline >= block.timestamp and (tokens_bought > 0 and max_eth > 0)
    token_reserve: uint256 = self.token.balanceOf(self)
    eth_sold: uint256 = self.getOutputPrice(tokens_bought, as_unitless_number(self.balance - max_eth), token_reserve)
    # Throws if eth_sold > max_eth
    eth_refund: uint256(wei) = max_eth - as_wei_value(eth_sold, 'wei')
    if eth_refund > 0:
        send(buyer, eth_refund)
    assert self.token.transfer(recipient, tokens_bought)
    log.TokenPurchase(buyer, as_wei_value(eth_sold, 'wei'), tokens_bought)
    return as_wei_value(eth_sold, 'wei')

# @notice Convert ETH to Tokens.
# @dev User specifies maximum input (msg.value) and exact output.
# @param tokens_bought Amount of tokens bought.
# @param deadline Time after which this transaction can no longer be executed.
# @return Amount of ETH sold.
@public
@payable
def ethToTokenSwapOutput(tokens_bought: uint256, deadline: timestamp) -> uint256(wei):
    return self.ethToTokenOutput(tokens_bought, msg.value, deadline, msg.sender, msg.sender)

# @notice Convert ETH to Tokens and transfers Tokens to recipient.
# @dev User specifies maximum input (msg.value) and exact output.
# @param tokens_bought Amount of tokens bought.
# @param deadline Time after which this transaction can no longer be executed.
# @param recipient The address that receives output Tokens.
# @return Amount of ETH sold.
@public
@payable
def ethToTokenTransferOutput(tokens_bought: uint256, deadline: timestamp, recipient: address) -> uint256(wei):
    assert recipient != self and recipient != ZERO_ADDRESS
    return self.ethToTokenOutput(tokens_bought, msg.value, deadline, msg.sender, recipient)

@private
def tokenToEthInput(tokens_sold: uint256, min_eth: uint256(wei), deadline: timestamp, buyer: address, recipient: address) -> uint256(wei):
    assert deadline >= block.timestamp and (tokens_sold > 0 and min_eth > 0)
    token_reserve: uint256 = self.token.balanceOf(self)
    eth_bought: uint256 = self.getInputPrice(tokens_sold, token_reserve, as_unitless_number(self.balance))
    wei_bought: uint256(wei) = as_wei_value(eth_bought, 'wei')
    assert wei_bought >= min_eth
    send(recipient, wei_bought)
    assert self.token.transferFrom(buyer, self, tokens_sold)
    log.EthPurchase(buyer, tokens_sold, wei_bought)
    return wei_bought


# @notice Convert Tokens to ETH.
# @dev User specifies exact input and minimum output.
# @param tokens_sold Amount of Tokens sold.
# @param min_eth Minimum ETH purchased.
# @param deadline Time after which this transaction can no longer be executed.
# @return Amount of ETH bought.
@public
def tokenToEthSwapInput(tokens_sold: uint256, min_eth: uint256(wei), deadline: timestamp) -> uint256(wei):
    return self.tokenToEthInput(tokens_sold, min_eth, deadline, msg.sender, msg.sender)

# @notice Convert Tokens to ETH and transfers ETH to recipient.
# @dev User specifies exact input and minimum output.
# @param tokens_sold Amount of Tokens sold.
# @param min_eth Minimum ETH purchased.
# @param deadline Time after which this transaction can no longer be executed.
# @param recipient The address that receives output ETH.
# @return Amount of ETH bought.
@public
def tokenToEthTransferInput(tokens_sold: uint256, min_eth: uint256(wei), deadline: timestamp, recipient: address) -> uint256(wei):
    assert recipient != self and recipient != ZERO_ADDRESS
    return self.tokenToEthInput(tokens_sold, min_eth, deadline, msg.sender, recipient)

@private
def tokenToEthOutput(eth_bought: uint256(wei), max_tokens: uint256, deadline: timestamp, buyer: address, recipient: address) -> uint256:
    assert deadline >= block.timestamp and eth_bought > 0
    token_reserve: uint256 = self.token.balanceOf(self)
    tokens_sold: uint256 = self.getOutputPrice(as_unitless_number(eth_bought), token_reserve, as_unitless_number(self.balance))
    # tokens sold is always > 0
    assert max_tokens >= tokens_sold
    send(recipient, eth_bought)
    assert self.token.transferFrom(buyer, self, tokens_sold)
    log.EthPurchase(buyer, tokens_sold, eth_bought)
    return tokens_sold

# @notice Convert Tokens to ETH.
# @dev User specifies maximum input and exact output.
# @param eth_bought Amount of ETH purchased.
# @param max_tokens Maximum Tokens sold.
# @param deadline Time after which this transaction can no longer be executed.
# @return Amount of Tokens sold.
@public
def tokenToEthSwapOutput(eth_bought: uint256(wei), max_tokens: uint256, deadline: timestamp) -> uint256:
    return self.tokenToEthOutput(eth_bought, max_tokens, deadline, msg.sender, msg.sender)

# @notice Convert Tokens to ETH and transfers ETH to recipient.
# @dev User specifies maximum input and exact output.
# @param eth_bought Amount of ETH purchased.
# @param max_tokens Maximum Tokens sold.
# @param deadline Time after which this transaction can no longer be executed.
# @param recipient The address that receives output ETH.
# @return Amount of Tokens sold.
@public
def tokenToEthTransferOutput(eth_bought: uint256(wei), max_tokens: uint256, deadline: timestamp, recipient: address) -> uint256:
    assert recipient != self and recipient != ZERO_ADDRESS
    return self.tokenToEthOutput(eth_bought, max_tokens, deadline, msg.sender, recipient)

@private
def tokenToTokenInput(tokens_sold: uint256, min_tokens_bought: uint256, min_eth_bought: uint256(wei), deadline: timestamp, buyer: address, recipient: address, exchange_addr: address) -> uint256:
    assert (deadline >= block.timestamp and tokens_sold > 0) and (min_tokens_bought > 0 and min_eth_bought > 0)
    assert exchange_addr != self and exchange_addr != ZERO_ADDRESS
    token_reserve: uint256 = self.token.balanceOf(self)
    eth_bought: uint256 = self.getInputPrice(tokens_sold, token_reserve, as_unitless_number(self.balance))
    wei_bought: uint256(wei) = as_wei_value(eth_bought, 'wei')
    assert wei_bought >= min_eth_bought
    assert self.token.transferFrom(buyer, self, tokens_sold)
    tokens_bought: uint256 = Exchange(exchange_addr).ethToTokenTransferInput(min_tokens_bought, deadline, recipient, value=wei_bought)
    log.EthPurchase(buyer, tokens_sold, wei_bought)
    return tokens_bought

# @notice Convert Tokens (self.token) to Tokens (token_addr).
# @dev User specifies exact input and minimum output.
# @param tokens_sold Amount of Tokens sold.
# @param min_tokens_bought Minimum Tokens (token_addr) purchased.
# @param min_eth_bought Minimum ETH purchased as intermediary.
# @param deadline Time after which this transaction can no longer be executed.
# @param token_addr The address of the token being purchased.
# @return Amount of Tokens (token_addr) bought.
@public
def tokenToTokenSwapInput(tokens_sold: uint256, min_tokens_bought: uint256, min_eth_bought: uint256(wei), deadline: timestamp, token_addr: address) -> uint256:
    exchange_addr: address = self.factory.getExchange(token_addr)
    return self.tokenToTokenInput(tokens_sold, min_tokens_bought, min_eth_bought, deadline, msg.sender, msg.sender, exchange_addr)

# @notice Convert Tokens (self.token) to Tokens (token_addr) and transfers
#         Tokens (token_addr) to recipient.
# @dev User specifies exact input and minimum output.
# @param tokens_sold Amount of Tokens sold.
# @param min_tokens_bought Minimum Tokens (token_addr) purchased.
# @param min_eth_bought Minimum ETH purchased as intermediary.
# @param deadline Time after which this transaction can no longer be executed.
# @param recipient The address that receives output ETH.
# @param token_addr The address of the token being purchased.
# @return Amount of Tokens (token_addr) bought.
@public
def tokenToTokenTransferInput(tokens_sold: uint256, min_tokens_bought: uint256, min_eth_bought: uint256(wei), deadline: timestamp, recipient: address, token_addr: address) -> uint256:
    exchange_addr: address = self.factory.getExchange(token_addr)
    return self.tokenToTokenInput(tokens_sold, min_tokens_bought, min_eth_bought, deadline, msg.sender, recipient, exchange_addr)

@private
def tokenToTokenOutput(tokens_bought: uint256, max_tokens_sold: uint256, max_eth_sold: uint256(wei), deadline: timestamp, buyer: address, recipient: address, exchange_addr: address) -> uint256:
    assert deadline >= block.timestamp and (tokens_bought > 0 and max_eth_sold > 0)
    assert exchange_addr != self and exchange_addr != ZERO_ADDRESS
    eth_bought: uint256(wei) = Exchange(exchange_addr).getEthToTokenOutputPrice(tokens_bought)
    token_reserve: uint256 = self.token.balanceOf(self)
    tokens_sold: uint256 = self.getOutputPrice(as_unitless_number(eth_bought), token_reserve, as_unitless_number(self.balance))
    # tokens sold is always > 0
    assert max_tokens_sold >= tokens_sold and max_eth_sold >= eth_bought
    assert self.token.transferFrom(buyer, self, tokens_sold)
    eth_sold: uint256(wei) = Exchange(exchange_addr).ethToTokenTransferOutput(tokens_bought, deadline, recipient, value=eth_bought)
    log.EthPurchase(buyer, tokens_sold, eth_bought)
    return tokens_sold

# @notice Convert Tokens (self.token) to Tokens (token_addr).
# @dev User specifies maximum input and exact output.
# @param tokens_bought Amount of Tokens (token_addr) bought.
# @param max_tokens_sold Maximum Tokens (self.token) sold.
# @param max_eth_sold Maximum ETH purchased as intermediary.
# @param deadline Time after which this transaction can no longer be executed.
# @param token_addr The address of the token being purchased.
# @return Amount of Tokens (self.token) sold.
@public
def tokenToTokenSwapOutput(tokens_bought: uint256, max_tokens_sold: uint256, max_eth_sold: uint256(wei), deadline: timestamp, token_addr: address) -> uint256:
    exchange_addr: address = self.factory.getExchange(token_addr)
    return self.tokenToTokenOutput(tokens_bought, max_tokens_sold, max_eth_sold, deadline, msg.sender, msg.sender, exchange_addr)

# @notice Convert Tokens (self.token) to Tokens (token_addr) and transfers
#         Tokens (token_addr) to recipient.
# @dev User specifies maximum input and exact output.
# @param tokens_bought Amount of Tokens (token_addr) bought.
# @param max_tokens_sold Maximum Tokens (self.token) sold.
# @param max_eth_sold Maximum ETH purchased as intermediary.
# @param deadline Time after which this transaction can no longer be executed.
# @param recipient The address that receives output ETH.
# @param token_addr The address of the token being purchased.
# @return Amount of Tokens (self.token) sold.
@public
def tokenToTokenTransferOutput(tokens_bought: uint256, max_tokens_sold: uint256, max_eth_sold: uint256(wei), deadline: timestamp, recipient: address, token_addr: address) -> uint256:
    exchange_addr: address = self.factory.getExchange(token_addr)
    return self.tokenToTokenOutput(tokens_bought, max_tokens_sold, max_eth_sold, deadline, msg.sender, recipient, exchange_addr)

# @notice Convert Tokens (self.token) to Tokens (exchange_addr.token).
# @dev Allows trades through contracts that were not deployed from the same factory.
# @dev User specifies exact input and minimum output.
# @param tokens_sold Amount of Tokens sold.
# @param min_tokens_bought Minimum Tokens (token_addr) purchased.
# @param min_eth_bought Minimum ETH purchased as intermediary.
# @param deadline Time after which this transaction can no longer be executed.
# @param exchange_addr The address of the exchange for the token being purchased.
# @return Amount of Tokens (exchange_addr.token) bought.
@public
def tokenToExchangeSwapInput(tokens_sold: uint256, min_tokens_bought: uint256, min_eth_bought: uint256(wei), deadline: timestamp, exchange_addr: address) -> uint256:
    return self.tokenToTokenInput(tokens_sold, min_tokens_bought, min_eth_bought, deadline, msg.sender, msg.sender, exchange_addr)

# @notice Convert Tokens (self.token) to Tokens (exchange_addr.token) and transfers
#         Tokens (exchange_addr.token) to recipient.
# @dev Allows trades through contracts that were not deployed from the same factory.
# @dev User specifies exact input and minimum output.
# @param tokens_sold Amount of Tokens sold.
# @param min_tokens_bought Minimum Tokens (token_addr) purchased.
# @param min_eth_bought Minimum ETH purchased as intermediary.
# @param deadline Time after which this transaction can no longer be executed.
# @param recipient The address that receives output ETH.
# @param exchange_addr The address of the exchange for the token being purchased.
# @return Amount of Tokens (exchange_addr.token) bought.
@public
def tokenToExchangeTransferInput(tokens_sold: uint256, min_tokens_bought: uint256, min_eth_bought: uint256(wei), deadline: timestamp, recipient: address, exchange_addr: address) -> uint256:
    assert recipient != self
    return self.tokenToTokenInput(tokens_sold, min_tokens_bought, min_eth_bought, deadline, msg.sender, recipient, exchange_addr)

# @notice Convert Tokens (self.token) to Tokens (exchange_addr.token).
# @dev Allows trades through contracts that were not deployed from the same factory.
# @dev User specifies maximum input and exact output.
# @param tokens_bought Amount of Tokens (token_addr) bought.
# @param max_tokens_sold Maximum Tokens (self.token) sold.
# @param max_eth_sold Maximum ETH purchased as intermediary.
# @param deadline Time after which this transaction can no longer be executed.
# @param exchange_addr The address of the exchange for the token being purchased.
# @return Amount of Tokens (self.token) sold.
@public
def tokenToExchangeSwapOutput(tokens_bought: uint256, max_tokens_sold: uint256, max_eth_sold: uint256(wei), deadline: timestamp, exchange_addr: address) -> uint256:
    return self.tokenToTokenOutput(tokens_bought, max_tokens_sold, max_eth_sold, deadline, msg.sender, msg.sender, exchange_addr)

# @notice Convert Tokens (self.token) to Tokens (exchange_addr.token) and transfers
#         Tokens (exchange_addr.token) to recipient.
# @dev Allows trades through contracts that were not deployed from the same factory.
# @dev User specifies maximum input and exact output.
# @param tokens_bought Amount of Tokens (token_addr) bought.
# @param max_tokens_sold Maximum Tokens (self.token) sold.
# @param max_eth_sold Maximum ETH purchased as intermediary.
# @param deadline Time after which this transaction can no longer be executed.
# @param recipient The address that receives output ETH.
# @param token_addr The address of the token being purchased.
# @return Amount of Tokens (self.token) sold.
@public
def tokenToExchangeTransferOutput(tokens_bought: uint256, max_tokens_sold: uint256, max_eth_sold: uint256(wei), deadline: timestamp, recipient: address, exchange_addr: address) -> uint256:
    assert recipient != self
    return self.tokenToTokenOutput(tokens_bought, max_tokens_sold, max_eth_sold, deadline, msg.sender, recipient, exchange_addr)

# @notice Public price function for ETH to Token trades with an exact input.
# @param eth_sold Amount of ETH sold.
# @return Amount of Tokens that can be bought with input ETH.
@public
@constant
def getEthToTokenInputPrice(eth_sold: uint256(wei)) -> uint256:
    assert eth_sold > 0
    token_reserve: uint256 = self.token.balanceOf(self)
    return self.getInputPrice(as_unitless_number(eth_sold), as_unitless_number(self.balance), token_reserve)

# @notice Public price function for ETH to Token trades with an exact output.
# @param tokens_bought Amount of Tokens bought.
# @return Amount of ETH needed to buy output Tokens.
@public
@constant
def getEthToTokenOutputPrice(tokens_bought: uint256) -> uint256(wei):
    assert tokens_bought > 0
    token_reserve: uint256 = self.token.balanceOf(self)
    eth_sold: uint256 = self.getOutputPrice(tokens_bought, as_unitless_number(self.balance), token_reserve)
    return as_wei_value(eth_sold, 'wei')

# @notice Public price function for Token to ETH trades with an exact input.
# @param tokens_sold Amount of Tokens sold.
# @return Amount of ETH that can be bought with input Tokens.
@public
@constant
def getTokenToEthInputPrice(tokens_sold: uint256) -> uint256(wei):
    assert tokens_sold > 0
    token_reserve: uint256 = self.token.balanceOf(self)
    eth_bought: uint256 = self.getInputPrice(tokens_sold, token_reserve, as_unitless_number(self.balance))
    return as_wei_value(eth_bought, 'wei')

# @notice Public price function for Token to ETH trades with an exact output.
# @param eth_bought Amount of output ETH.
# @return Amount of Tokens needed to buy output ETH.
@public
@constant
def getTokenToEthOutputPrice(eth_bought: uint256(wei)) -> uint256:
    assert eth_bought > 0
    token_reserve: uint256 = self.token.balanceOf(self)
    return self.getOutputPrice(as_unitless_number(eth_bought), token_reserve, as_unitless_number(self.balance))

# @return Address of Token that is sold on this exchange.
@public
@constant
def tokenAddress() -> address:
    return self.token

# @return Address of factory that created this exchange.
@public
@constant
def factoryAddress() -> address(Factory):
    return self.factory

# ERC20 compatibility for exchange liquidity modified from
# https://github.com/ethereum/vyper/blob/master/examples/tokens/ERC20.vy
@public
@constant
def balanceOf(_owner : address) -> uint256:
    return self.balances[_owner]

@public
def transfer(_to : address, _value : uint256) -> bool:
    self.balances[msg.sender] -= _value
    self.balances[_to] += _value
    log.Transfer(msg.sender, _to, _value)
    return True

@public
def transferFrom(_from : address, _to : address, _value : uint256) -> bool:
    self.balances[_from] -= _value
    self.balances[_to] += _value
    self.allowances[_from][msg.sender] -= _value
    log.Transfer(_from, _to, _value)
    return True

@public
def approve(_spender : address, _value : uint256) -> bool:
    self.allowances[msg.sender][_spender] = _value
    log.Approval(msg.sender, _spender, _value)
    return True

@public
@constant
def allowance(_owner : address, _spender : address) -> uint256:
    return self.allowances[_owner][_spender]

Contract ABI

[{"name":"TokenPurchase","inputs":[{"type":"address","name":"buyer","indexed":true},{"type":"uint256","name":"eth_sold","indexed":true},{"type":"uint256","name":"tokens_bought","indexed":true}],"anonymous":false,"type":"event"},{"name":"EthPurchase","inputs":[{"type":"address","name":"buyer","indexed":true},{"type":"uint256","name":"tokens_sold","indexed":true},{"type":"uint256","name":"eth_bought","indexed":true}],"anonymous":false,"type":"event"},{"name":"AddLiquidity","inputs":[{"type":"address","name":"provider","indexed":true},{"type":"uint256","name":"eth_amount","indexed":true},{"type":"uint256","name":"token_amount","indexed":true}],"anonymous":false,"type":"event"},{"name":"RemoveLiquidity","inputs":[{"type":"address","name":"provider","indexed":true},{"type":"uint256","name":"eth_amount","indexed":true},{"type":"uint256","name":"token_amount","indexed":true}],"anonymous":false,"type":"event"},{"name":"Transfer","inputs":[{"type":"address","name":"_from","indexed":true},{"type":"address","name":"_to","indexed":true},{"type":"uint256","name":"_value","indexed":false}],"anonymous":false,"type":"event"},{"name":"Approval","inputs":[{"type":"address","name":"_owner","indexed":true},{"type":"address","name":"_spender","indexed":true},{"type":"uint256","name":"_value","indexed":false}],"anonymous":false,"type":"event"},{"name":"setup","outputs":[],"inputs":[{"type":"address","name":"token_addr"}],"constant":false,"payable":false,"type":"function","gas":175875},{"name":"addLiquidity","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"min_liquidity"},{"type":"uint256","name":"max_tokens"},{"type":"uint256","name":"deadline"}],"constant":false,"payable":true,"type":"function","gas":82616},{"name":"removeLiquidity","outputs":[{"type":"uint256","name":"out"},{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"amount"},{"type":"uint256","name":"min_eth"},{"type":"uint256","name":"min_tokens"},{"type":"uint256","name":"deadline"}],"constant":false,"payable":false,"type":"function","gas":116814},{"name":"__default__","outputs":[],"inputs":[],"constant":false,"payable":true,"type":"function"},{"name":"ethToTokenSwapInput","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"min_tokens"},{"type":"uint256","name":"deadline"}],"constant":false,"payable":true,"type":"function","gas":12757},{"name":"ethToTokenTransferInput","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"min_tokens"},{"type":"uint256","name":"deadline"},{"type":"address","name":"recipient"}],"constant":false,"payable":true,"type":"function","gas":12965},{"name":"ethToTokenSwapOutput","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"tokens_bought"},{"type":"uint256","name":"deadline"}],"constant":false,"payable":true,"type":"function","gas":50463},{"name":"ethToTokenTransferOutput","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"tokens_bought"},{"type":"uint256","name":"deadline"},{"type":"address","name":"recipient"}],"constant":false,"payable":true,"type":"function","gas":50671},{"name":"tokenToEthSwapInput","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"tokens_sold"},{"type":"uint256","name":"min_eth"},{"type":"uint256","name":"deadline"}],"constant":false,"payable":false,"type":"function","gas":47503},{"name":"tokenToEthTransferInput","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"tokens_sold"},{"type":"uint256","name":"min_eth"},{"type":"uint256","name":"deadline"},{"type":"address","name":"recipient"}],"constant":false,"payable":false,"type":"function","gas":47712},{"name":"tokenToEthSwapOutput","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"eth_bought"},{"type":"uint256","name":"max_tokens"},{"type":"uint256","name":"deadline"}],"constant":false,"payable":false,"type":"function","gas":50175},{"name":"tokenToEthTransferOutput","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"eth_bought"},{"type":"uint256","name":"max_tokens"},{"type":"uint256","name":"deadline"},{"type":"address","name":"recipient"}],"constant":false,"payable":false,"type":"function","gas":50384},{"name":"tokenToTokenSwapInput","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"tokens_sold"},{"type":"uint256","name":"min_tokens_bought"},{"type":"uint256","name":"min_eth_bought"},{"type":"uint256","name":"deadline"},{"type":"address","name":"token_addr"}],"constant":false,"payable":false,"type":"function","gas":51007},{"name":"tokenToTokenTransferInput","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"tokens_sold"},{"type":"uint256","name":"min_tokens_bought"},{"type":"uint256","name":"min_eth_bought"},{"type":"uint256","name":"deadline"},{"type":"address","name":"recipient"},{"type":"address","name":"token_addr"}],"constant":false,"payable":false,"type":"function","gas":51098},{"name":"tokenToTokenSwapOutput","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"tokens_bought"},{"type":"uint256","name":"max_tokens_sold"},{"type":"uint256","name":"max_eth_sold"},{"type":"uint256","name":"deadline"},{"type":"address","name":"token_addr"}],"constant":false,"payable":false,"type":"function","gas":54928},{"name":"tokenToTokenTransferOutput","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"tokens_bought"},{"type":"uint256","name":"max_tokens_sold"},{"type":"uint256","name":"max_eth_sold"},{"type":"uint256","name":"deadline"},{"type":"address","name":"recipient"},{"type":"address","name":"token_addr"}],"constant":false,"payable":false,"type":"function","gas":55019},{"name":"tokenToExchangeSwapInput","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"tokens_sold"},{"type":"uint256","name":"min_tokens_bought"},{"type":"uint256","name":"min_eth_bought"},{"type":"uint256","name":"deadline"},{"type":"address","name":"exchange_addr"}],"constant":false,"payable":false,"type":"function","gas":49342},{"name":"tokenToExchangeTransferInput","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"tokens_sold"},{"type":"uint256","name":"min_tokens_bought"},{"type":"uint256","name":"min_eth_bought"},{"type":"uint256","name":"deadline"},{"type":"address","name":"recipient"},{"type":"address","name":"exchange_addr"}],"constant":false,"payable":false,"type":"function","gas":49532},{"name":"tokenToExchangeSwapOutput","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"tokens_bought"},{"type":"uint256","name":"max_tokens_sold"},{"type":"uint256","name":"max_eth_sold"},{"type":"uint256","name":"deadline"},{"type":"address","name":"exchange_addr"}],"constant":false,"payable":false,"type":"function","gas":53233},{"name":"tokenToExchangeTransferOutput","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"tokens_bought"},{"type":"uint256","name":"max_tokens_sold"},{"type":"uint256","name":"max_eth_sold"},{"type":"uint256","name":"deadline"},{"type":"address","name":"recipient"},{"type":"address","name":"exchange_addr"}],"constant":false,"payable":false,"type":"function","gas":53423},{"name":"getEthToTokenInputPrice","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"eth_sold"}],"constant":true,"payable":false,"type":"function","gas":5542},{"name":"getEthToTokenOutputPrice","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"tokens_bought"}],"constant":true,"payable":false,"type":"function","gas":6872},{"name":"getTokenToEthInputPrice","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"tokens_sold"}],"constant":true,"payable":false,"type":"function","gas":5637},{"name":"getTokenToEthOutputPrice","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"uint256","name":"eth_bought"}],"constant":true,"payable":false,"type":"function","gas":6897},{"name":"tokenAddress","outputs":[{"type":"address","name":"out"}],"inputs":[],"constant":true,"payable":false,"type":"function","gas":1413},{"name":"factoryAddress","outputs":[{"type":"address","name":"out"}],"inputs":[],"constant":true,"payable":false,"type":"function","gas":1443},{"name":"balanceOf","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"address","name":"_owner"}],"constant":true,"payable":false,"type":"function","gas":1645},{"name":"transfer","outputs":[{"type":"bool","name":"out"}],"inputs":[{"type":"address","name":"_to"},{"type":"uint256","name":"_value"}],"constant":false,"payable":false,"type":"function","gas":75034},{"name":"transferFrom","outputs":[{"type":"bool","name":"out"}],"inputs":[{"type":"address","name":"_from"},{"type":"address","name":"_to"},{"type":"uint256","name":"_value"}],"constant":false,"payable":false,"type":"function","gas":110907},{"name":"approve","outputs":[{"type":"bool","name":"out"}],"inputs":[{"type":"address","name":"_spender"},{"type":"uint256","name":"_value"}],"constant":false,"payable":false,"type":"function","gas":38769},{"name":"allowance","outputs":[{"type":"uint256","name":"out"}],"inputs":[{"type":"address","name":"_owner"},{"type":"address","name":"_spender"}],"constant":true,"payable":false,"type":"function","gas":1925},{"name":"name","outputs":[{"type":"bytes32","name":"out"}],"inputs":[],"constant":true,"payable":false,"type":"function","gas":1623},{"name":"symbol","outputs":[{"type":"bytes32","name":"out"}],"inputs":[],"constant":true,"payable":false,"type":"function","gas":1653},{"name":"decimals","outputs":[{"type":"uint256","name":"out"}],"inputs":[],"constant":true,"payable":false,"type":"function","gas":1683},{"name":"totalSupply","outputs":[{"type":"uint256","name":"out"}],"inputs":[],"constant":true,"payable":false,"type":"function","gas":1713}]

Block Transaction Difficulty Gas Used Reward
View All Blocks Produced

Block Uncle Number Difficulty Gas Used Reward
View All Uncles
Loading...
Loading
Loading...
Loading

OVERVIEW

Uniswap V1 pool to exchange between ETH and BTC++

Validator Index Block Amount
View All Withdrawals

Transaction Hash Block Value Eth2 PubKey Valid
View All Deposits
Loading...
Loading
[ 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.