.. index:: wei, finney, szabo, ether
A literal number can take a suffix of wei, finney, szabo or ether to convert between the subdenominations of Ether, where Ether currency numbers without a postfix are assumed to be Wei, e.g. 2 ether == 2000 finney evaluates to true.
.. index:: time, seconds, minutes, hours, days, weeks, years
Suffixes like seconds, minutes, hours, days, weeks and
years after literal numbers can be used to convert between units of time where seconds are the base
unit and units are considered naively in the following way:
1 == 1 seconds1 minutes == 60 seconds1 hours == 60 minutes1 days == 24 hours1 weeks = 7 days1 years = 365 days
Take care if you perform calendar calculations using these units, because not every year equals 365 days and not even every day has 24 hours because of leap seconds. Due to the fact that leap seconds cannot be predicted, an exact calendar library has to be updated by an external oracle.
These suffixes cannot be applied to variables. If you want to interpret some input variable in e.g. days, you can do it in the following way:
function f(uint start, uint daysAfter) {
if (now >= start + daysAfter * 1 days) { ... }
}
There are special variables and functions which always exist in the global namespace and are mainly used to provide information about the blockchain.
.. index:: block, coinbase, difficulty, number, block;number, timestamp, block;timestamp, msg, data, gas, sender, value, now, gas price, origin
block.blockhash(uint blockNumber) returns (bytes32): hash of the given block - only works for 256 most recent blocks excluding currentblock.coinbase(address): current block miner's addressblock.difficulty(uint): current block difficultyblock.gaslimit(uint): current block gaslimitblock.number(uint): current block numberblock.timestamp(uint): current block timestampmsg.data(bytes): complete calldatamsg.gas(uint): remaining gasmsg.sender(address): sender of the message (current call)msg.sig(bytes4): first four bytes of the calldata (i.e. function identifier)msg.value(uint): number of wei sent with the messagenow(uint): current block timestamp (alias forblock.timestamp)tx.gasprice(uint): gas price of the transactiontx.origin(address): sender of the transaction (full call chain)
Note
The values of all members of msg, including msg.sender and
msg.value can change for every external function call.
This includes calls to library functions.
If you want to implement access restrictions in library functions using
msg.sender, you have to manually supply the value of
msg.sender as an argument.
Note
The block hashes are not available for all blocks for scalability reasons. You can only access the hashes of the most recent 256 blocks, all other values will be zero.
.. index:: assert, revert, keccak256, ripemd160, sha256, ecrecover, addmod, mulmod, cryptography, this, super, selfdestruct, balance, send
assert(bool condition):- throws if the condition is not met.
addmod(uint x, uint y, uint k) returns (uint):- compute
(x + y) % kwhere the addition is performed with arbitrary precision and does not wrap around at2**256. mulmod(uint x, uint y, uint k) returns (uint):- compute
(x * y) % kwhere the multiplication is performed with arbitrary precision and does not wrap around at2**256. keccak256(...) returns (bytes32):- compute the Ethereum-SHA-3 (Keccak-256) hash of the (tightly packed) arguments
sha3(...) returns (bytes32):- alias to keccak256()
sha256(...) returns (bytes32):- compute the SHA-256 hash of the (tightly packed) arguments
ripemd160(...) returns (bytes20):- compute RIPEMD-160 hash of the (tightly packed) arguments
ecrecover(bytes32 hash, uint8 v, bytes32 r, bytes32 s) returns (address):- recover the address associated with the public key from elliptic curve signature or return zero on error
revert():- abort execution and revert state changes
In the above, "tightly packed" means that the arguments are concatenated without padding. This means that the following are all identical:
keccak256("ab", "c")
keccak256("abc")
keccak256(0x616263)
keccak256(6382179)
keccak256(97, 98, 99)
If padding is needed, explicit type conversions can be used: keccak256("\x00\x12") is the
same as keccak256(uint16(0x12)).
Note that constants will be packed using the minimum number of bytes required to store them.
This means that, for example, keccak256(0) == keccak256(uint8(0)) and
keccak256(0x12345678) == keccak256(uint32(0x12345678)).
It might be that you run into Out-of-Gas for sha256, ripemd160 or ecrecover on a private blockchain. The reason for this is that those are implemented as so-called precompiled contracts and these contracts only really exist after they received the first message (although their contract code is hardcoded). Messages to non-existing contracts are more expensive and thus the execution runs into an Out-of-Gas error. A workaround for this problem is to first send e.g. 1 Wei to each of the contracts before you use them in your actual contracts. This is not an issue on the official or test net.
<address>.balance(uint256):- balance of the :ref:`address` in Wei
<address>.send(uint256 amount) returns (bool):- send given amount of Wei to :ref:`address`, returns
falseon failure <address>.transfer(uint256 amount):- send given amount of Wei to :ref:`address`, throws on failure
For more information, see the section on :ref:`address`.
Warning
There are some dangers in using send: The transfer fails if the call stack depth is at 1024
(this can always be forced by the caller) and it also fails if the recipient runs out of gas. So in order
to make safe Ether transfers, always check the return value of send or even better:
Use a pattern where the recipient withdraws the money.
.. index:: this, selfdestruct
this(current contract's type):- the current contract, explicitly convertible to :ref:`address`
selfdestruct(address recipient):- destroy the current contract, sending its funds to the given :ref:`address`
Furthermore, all functions of the current contract are callable directly including the current function.