--- id: current-reference title: Tezos - Things relating to the current execution context --- import Syntax from '@theme/Syntax'; # Tezos.balance Get the balance for the contract. ```pascaligo function main (const p : unit; const s: tez) : list (operation) * tez is ((nil : list (operation)), Tezos.balance) ``` > Note that `balance` and `Current.balance` are *deprecated*. ```cameligo let main (p,s : unit * tez) = ([] : operation list), Tezos.balance ``` > Note that `balance` and `Current.balance` are *deprecated*. ```reasonligo let main = ((p,s) : (unit, tez)) => ([]: list (operation), Tezos.balance); ``` > Note that `balance` and `Current.balance` are *deprecated*. ## Tezos.now Returns the current time as a [unix timestamp](https://en.wikipedia.org/wiki/Unix_time). In LIGO, timestamps are type compatible in operations with integers. This lets you set for instance time constraints for your smart contracts like this: ### Examples #### 24 hours from now ```pascaligo group=b const today: timestamp = Tezos.now; const one_day: int = 86_400; const in_24_hrs: timestamp = today + one_day; const some_date: timestamp = ("2000-01-01T10:10:10Z" : timestamp); const one_day_later: timestamp = some_date + one_day; ``` > Note that `now` is *deprecated*. ```cameligo group=b let today: timestamp = Tezos.now let one_day: int = 86_400 let in_24_hrs: timestamp = today + one_day let some_date: timestamp = ("2000-01-01t10:10:10Z" : timestamp) let one_day_later: timestamp = some_date + one_day ``` > Note that `Current.time` is *deprecated*. ```reasonligo group=b let today: timestamp = Tezos.now; let one_day: int = 86_400; let in_24_hrs: timestamp = today + one_day; let some_date: timestamp = ("2000-01-01t10:10:10Z" : timestamp); let one_day_later: timestamp = some_date + one_day; ``` > Note that `Current.time` is *deprecated*. #### 24 hours ago ```pascaligo group=c const today: timestamp = Tezos.now; const one_day: int = 86_400; const in_24_hrs: timestamp = today - one_day; ``` > Note that `now` is *deprecated*. ```cameligo group=c let today: timestamp = Tezos.now let one_day: int = 86_400 let in_24_hrs: timestamp = today - one_day ``` > Note that `Current.time` is *deprecated*. ```reasonligo group=c let today: timestamp = Tezos.now; let one_day: int = 86_400; let in_24_hrs: timestamp = today - one_day; ``` > Note that `Current.time` is *deprecated*. #### Comparing Timestamps You can also compare timestamps using the same comparison operators as for numbers ```pascaligo group=c const not_tommorow: bool = (Tezos.now = in_24_hrs) ``` > Note that `now` is *deprecated*. ```cameligo group=c let not_tomorrow: bool = (Tezos.now = in_24_hrs) ``` > Note that `Current.time` is *deprecated*. ```reasonligo group=c let not_tomorrow: bool = (Tezos.now == in_24_hrs); ``` > Note that `Current.time` is *deprecated*. ## Amount Get the amount of tez provided by the sender to complete this transaction. ```pascaligo function threshold (const p : unit) : int is if Tezos.amount = 100tz then 42 else 0 ``` > Note that `amount` is *deprecated*. ```cameligo let threshold (p : unit) : int = if Tezos.amount = 100tz then 42 else 0 ``` > Note that `Current.amount` is *deprecated*. ```reasonligo let threshold = (p : unit) : int => if (Tezos.amount == 100tz) { 42; } else { 0; }; ``` > Note that `Current.amount` is *deprecated*. ## Sender Get the address that initiated the current transaction. ```pascaligo function main (const p : unit) : address is Tezos.sender ``` > Note that `sender` is *deprecated*. ```cameligo let main (p: unit) : address = Tezos.sender ``` > Note that `Current.sender` is *deprecated*. ```reasonligo let main = (p : unit) : address => Tezos.sender; ``` > Note that `Current.sender` is *deprecated*. ## Address Get the address associated with a value of type `contract`. ```pascaligo function main (const p : key_hash) : address is block { const c : contract (unit) = Tezos.implicit_account (p) } with Tezos.address(c) ``` > Note that `implicit_account` and `address` are *deprecated*. ```cameligo let main (p : key_hash) = let c : unit contract = Tezos.implicit_account p in Tezos.address c ``` > Note that `Current.implicit_account` and `Current.address` are > *deprecated*. ```reasonligo let main = (p : key_hash) : address => { let c : contract (unit) = Tezos.implicit_account (p); Tezos.address (c); }; ``` > Note that `Current.implicit_account` and `Current.address` are > *deprecated*. ## Self Address Get the address of the currently running contract. ```pascaligo function main (const p : unit) : address is Tezos.self_address ``` > Note that `self_address` is *deprecated*. ```cameligo let main (p : unit) : address = Tezos.self_address ``` > Note that `Current.self_address` is *deprecated*. ```reasonligo let main = (p : unit) : address => Tezos.self_address; ``` > Note that `Current.self_address` is *deprecated*. ## Self Typecast the currently running contract with an entrypoint annotation. If your are using entrypoints: use "%Bar" for constructor Bar If you are not using entrypoints: use "%Default" ```pascaligo function main (const p : unit) : contract(unit) is block { const c : contract(unit) = Tezos.self("%Default") ; } with c ``` ```cameligo let main (p : unit) : unit contract = (Tezos.self("%Default") : unit contract) ``` ```reasonligo let main = (p: unit) : contract(unit) => (Tezos.self("%Default") : contract(unit)); ``` ## Implicit Account Get the default contract associated with an on-chain key-pair. This contract does not execute code, instead it exists to receive tokens on behalf of a key's owner. ```pascaligo function main (const kh: key_hash) : contract (unit) is Tezos.implicit_account (kh) ``` > Note that `implicit_account` is *deprecated*. ```cameligo let main (kh : key_hash) : unit contract = Tezos.implicit_account kh ``` > Note that `Current.implicit_account` is *deprecated*. ```reasonligo let main = (kh : key_hash): contract (unit) => Tezos.implicit_account (kh); ``` > Note that `Current.implicit_account` is *deprecated*. ## Source Get the _originator_ (address) of the current transaction. That is, if a chain of transactions led to the current execution get the address that began the chain. Not to be confused with `Tezos.sender`, which gives the address of the contract or user which directly caused the current transaction. > ⚠️ There are a few caveats you should keep in mind before using > `Tezos.source` over `Tezos.sender`: > > 1. `Tezos.source` will never be a contract, so if you want to allow > contracts (multisigs etc) to operate your contract, you need to > use `Tezos.sender` > 2. https://vessenes.com/tx-origin-and-ethereum-oh-my/ -- in general > it is somewhat unsafe to assume that `Tezos.source` understands > everything that is going to happen in a transaction. If > `Tezos.source` transfers to a malicious (or sufficiently > attackable) contract, that contract might potentially transfer to > yours, without `Tezos.source`'s consent. So if you are using > `Tezos.source` for authentication, you risk being confused. A > good historical example of this is bakers paying out delegation > rewards. Naive bakers did (and probably still do) just use > tezos-client to transfer to whatever KT1 delegates they had, even > if those KT1 were malicious scripts. ```pascaligo function main (const p: unit) : address is Tezos.source ``` > Note that `source` is *deprecated*. ```cameligo let main (p : unit) : address = Tezos.source ``` > Note that `Current.source` is *deprecated*. ```reasonligo let main = (p : unit) : address => Tezos.source; ``` > Note that `Current.source` is *deprecated*. ## Failwith Cause the contract to fail with an error message. > ⚠ Using this currently requires in general a type annotation on the > `failwith` call. ```pascaligo function main (const p : int; const s : unit) : list (operation) * unit is block { if p > 10 then failwith ("Failure.") else skip } with ((nil : list (operation)), s) ``` ```cameligo let main (p,s : int * unit) = if p > 10 then failwith "Failure." ``` ```reasonligo let main = ((p,s) : (int, unit)) => if (p > 10) { failwith ("Failure."); }; ```