324 lines
12 KiB
Rust
324 lines
12 KiB
Rust
use crate::{
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base::{encode_function_data, AbiError, BaseContract},
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call::ContractCall,
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event::{EthEvent, Event},
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EthLogDecode,
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};
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use ethers_core::{
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abi::{Abi, Detokenize, Error, EventExt, Function, Tokenize},
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types::{Address, Filter, Selector, ValueOrArray},
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};
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#[cfg(not(feature = "legacy"))]
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use ethers_core::types::Eip1559TransactionRequest;
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#[cfg(feature = "legacy")]
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use ethers_core::types::TransactionRequest;
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use ethers_providers::Middleware;
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use std::{fmt::Debug, marker::PhantomData, sync::Arc};
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/// A Contract is an abstraction of an executable program on the Ethereum Blockchain.
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/// It has code (called byte code) as well as allocated long-term memory
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/// (called storage). Every deployed Contract has an address, which is used to connect
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/// to it so that it may be sent messages to call its methods.
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///
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/// A Contract can emit Events, which can be efficiently observed by applications
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/// to be notified when a contract has performed specific operation.
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///
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/// There are two types of methods that can be called on a Contract:
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///
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/// 1. A Constant method may not add, remove or change any data in the storage,
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/// nor log any events, and may only call Constant methods on other contracts.
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/// These methods are free (no Ether is required) to call. The result from them
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/// may also be returned to the caller. Constant methods are marked as `pure` and
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/// `view` in Solidity.
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///
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/// 2. A Non-Constant method requires a fee (in Ether) to be paid, but may perform
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/// any state-changing operation desired, log events, send ether and call Non-Constant
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/// methods on other Contracts. These methods cannot return their result to the caller.
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/// These methods must be triggered by a transaction, sent by an Externally Owned Account
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/// (EOA) either directly or indirectly (i.e. called from another contract), and are
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/// required to be mined before the effects are present. Therefore, the duration
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/// required for these operations can vary widely, and depend on the transaction
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/// gas price, network congestion and miner priority heuristics.
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///
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/// The Contract API provides simple way to connect to a Contract and call its methods,
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/// as functions on a Rust struct, handling all the binary protocol conversion,
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/// internal name mangling and topic construction. This allows a Contract object
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/// to be used like any standard Rust struct, without having to worry about the
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/// low-level details of the Ethereum Virtual Machine or Blockchain.
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///
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/// The Contract definition (called an Application Binary Interface, or ABI) must
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/// be provided to instantiate a contract and the available methods and events will
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/// be made available to call by providing their name as a `str` via the [`method`]
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/// and [`event`] methods. If non-existing names are given, the function/event call
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/// will fail.
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///
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/// Alternatively, you can _and should_ use the [`abigen`] macro, or the [`Abigen` builder]
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/// to generate type-safe bindings to your contracts.
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///
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/// # Example
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///
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/// Assuming we already have our contract deployed at `address`, we'll proceed to
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/// interact with its methods and retrieve raw logs it has emitted.
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///
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/// ```no_run
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/// use ethers_core::{
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/// abi::Abi,
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/// types::{Address, H256},
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/// };
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/// use ethers_contract::Contract;
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/// use ethers_providers::{Provider, Http};
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/// use ethers_signers::Wallet;
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/// use std::convert::TryFrom;
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///
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/// # async fn foo() -> Result<(), Box<dyn std::error::Error>> {
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/// // this is a fake address used just for this example
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/// let address = "eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee".parse::<Address>()?;
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///
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/// // (ugly way to write the ABI inline, you can otherwise read it from a file)
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/// let abi: Abi = serde_json::from_str(r#"[{"inputs":[{"internalType":"string","name":"value","type":"string"}],"stateMutability":"nonpayable","type":"constructor"},{"anonymous":false,"inputs":[{"indexed":true,"internalType":"address","name":"author","type":"address"},{"indexed":true,"internalType":"address","name":"oldAuthor","type":"address"},{"indexed":false,"internalType":"string","name":"oldValue","type":"string"},{"indexed":false,"internalType":"string","name":"newValue","type":"string"}],"name":"ValueChanged","type":"event"},{"inputs":[],"name":"getValue","outputs":[{"internalType":"string","name":"","type":"string"}],"stateMutability":"view","type":"function"},{"inputs":[],"name":"lastSender","outputs":[{"internalType":"address","name":"","type":"address"}],"stateMutability":"view","type":"function"},{"inputs":[{"internalType":"string","name":"value","type":"string"}],"name":"setValue","outputs":[],"stateMutability":"nonpayable","type":"function"}]"#)?;
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///
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/// // connect to the network
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/// let client = Provider::<Http>::try_from("http://localhost:8545").unwrap();
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///
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/// // create the contract object at the address
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/// let contract = Contract::new(address, abi, client);
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///
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/// // Calling constant methods is done by calling `call()` on the method builder.
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/// // (if the function takes no arguments, then you must use `()` as the argument)
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/// let init_value: String = contract
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/// .method::<_, String>("getValue", ())?
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/// .call()
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/// .await?;
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///
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/// // Non-constant methods are executed via the `send()` call on the method builder.
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/// let call = contract
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/// .method::<_, H256>("setValue", "hi".to_owned())?;
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/// let pending_tx = call.send().await?;
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///
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/// // `await`ing on the pending transaction resolves to a transaction receipt
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/// let receipt = pending_tx.confirmations(6).await?;
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///
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/// # Ok(())
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/// # }
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/// ```
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///
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/// # Event Logging
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///
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/// Querying structured logs requires you to have defined a struct with the expected
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/// datatypes and to have implemented `Detokenize` for it. This boilerplate code
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/// is generated for you via the [`abigen`] and [`Abigen` builder] utilities.
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//
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// Ignore because `ethers-contract-derive` macros do not work in doctests in `ethers-contract`.
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/// ```ignore
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/// # async fn foo() -> Result<(), Box<dyn std::error::Error>> {
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/// use ethers_core::{abi::Abi, types::Address};
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/// use ethers_contract::{Contract, EthEvent};
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/// use ethers_providers::{Provider, Http, Middleware};
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/// use ethers_signers::Wallet;
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/// use std::convert::TryFrom;
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/// use ethers_core::abi::{Detokenize, Token, InvalidOutputType};
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/// # // this is a fake address used just for this example
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/// # let address = "eeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeeee".parse::<Address>()?;
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/// # let abi: Abi = serde_json::from_str(r#"[]"#)?;
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/// # let client = Provider::<Http>::try_from("http://localhost:8545").unwrap();
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/// # let contract = Contract::new(address, abi, client);
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///
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/// #[derive(Clone, Debug, EthEvent)]
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/// struct ValueChanged {
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/// old_author: Address,
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/// new_author: Address,
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/// old_value: String,
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/// new_value: String,
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/// }
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///
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/// let logs: Vec<ValueChanged> = contract
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/// .event()
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/// .from_block(0u64)
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/// .query()
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/// .await?;
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///
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/// println!("{:?}", logs);
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/// # Ok(())
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/// # }
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/// ```
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///
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/// _Disclaimer: these above docs have been adapted from the corresponding [ethers.js page](https://docs.ethers.io/ethers.js/html/api-contract.html)_
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///
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/// [`abigen`]: macro.abigen.html
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/// [`Abigen` builder]: struct.Abigen.html
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/// [`event`]: method@crate::Contract::event
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/// [`method`]: method@crate::Contract::method
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#[derive(Debug)]
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pub struct Contract<M> {
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address: Address,
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base_contract: BaseContract,
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client: Arc<M>,
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}
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impl<M> std::ops::Deref for Contract<M> {
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type Target = BaseContract;
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fn deref(&self) -> &Self::Target {
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&self.base_contract
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}
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}
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impl<M> Clone for Contract<M> {
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fn clone(&self) -> Self {
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Contract {
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base_contract: self.base_contract.clone(),
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client: self.client.clone(),
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address: self.address,
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}
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}
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}
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impl<M> Contract<M> {
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/// Returns the contract's address
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pub fn address(&self) -> Address {
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self.address
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}
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/// Returns a reference to the contract's ABI
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pub fn abi(&self) -> &Abi {
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&self.base_contract.abi
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}
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/// Returns a pointer to the contract's client
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pub fn client(&self) -> Arc<M> {
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self.client.clone()
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}
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}
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impl<M: Middleware> Contract<M> {
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/// Returns an [`Event`](crate::builders::Event) builder for the provided event.
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/// This function operates in a static context, then it does not require a `self`
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/// to reference to instantiate an [`Event`](crate::builders::Event) builder.
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pub fn event_of_type<D: EthEvent>(client: &Arc<M>) -> Event<M, D> {
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Event {
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provider: client,
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filter: Filter::new().event(&D::abi_signature()),
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datatype: PhantomData,
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}
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}
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}
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impl<M: Middleware> Contract<M> {
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/// Creates a new contract from the provided client, abi and address
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pub fn new(
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address: impl Into<Address>,
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abi: impl Into<BaseContract>,
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client: impl Into<Arc<M>>,
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) -> Self {
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Self { base_contract: abi.into(), client: client.into(), address: address.into() }
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}
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/// Returns an [`Event`](crate::builders::Event) builder for the provided event.
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pub fn event<D: EthEvent>(&self) -> Event<M, D> {
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self.event_with_filter(Filter::new().event(&D::abi_signature()))
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}
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/// Returns an [`Event`](crate::builders::Event) builder with the provided filter.
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pub fn event_with_filter<D: EthLogDecode>(&self, filter: Filter) -> Event<M, D> {
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Event {
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provider: &self.client,
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filter: filter.address(ValueOrArray::Value(self.address)),
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datatype: PhantomData,
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}
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}
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/// Returns an [`Event`](crate::builders::Event) builder with the provided name.
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pub fn event_for_name<D: EthLogDecode>(&self, name: &str) -> Result<Event<M, D>, Error> {
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// get the event's full name
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let event = self.base_contract.abi.event(name)?;
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Ok(self.event_with_filter(Filter::new().event(&event.abi_signature())))
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}
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/// Returns a transaction builder for the provided function name. If there are
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/// multiple functions with the same name due to overloading, consider using
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/// the `method_hash` method instead, since this will use the first match.
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pub fn method<T: Tokenize, D: Detokenize>(
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&self,
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name: &str,
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args: T,
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) -> Result<ContractCall<M, D>, AbiError> {
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// get the function
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let function = self.base_contract.abi.function(name)?;
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self.method_func(function, args)
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}
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/// Returns a transaction builder for the selected function signature. This should be
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/// preferred if there are overloaded functions in your smart contract
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pub fn method_hash<T: Tokenize, D: Detokenize>(
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&self,
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signature: Selector,
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args: T,
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) -> Result<ContractCall<M, D>, AbiError> {
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let function = self
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.base_contract
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.methods
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.get(&signature)
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.map(|(name, index)| &self.base_contract.abi.functions[name][*index])
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.ok_or_else(|| Error::InvalidName(hex::encode(signature)))?;
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self.method_func(function, args)
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}
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fn method_func<T: Tokenize, D: Detokenize>(
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&self,
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function: &Function,
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args: T,
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) -> Result<ContractCall<M, D>, AbiError> {
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let data = encode_function_data(function, args)?;
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#[cfg(feature = "legacy")]
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let tx = TransactionRequest {
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to: Some(self.address.into()),
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data: Some(data),
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..Default::default()
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};
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#[cfg(not(feature = "legacy"))]
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let tx = Eip1559TransactionRequest {
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to: Some(self.address.into()),
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data: Some(data),
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..Default::default()
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};
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let tx = tx.into();
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Ok(ContractCall {
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tx,
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client: Arc::clone(&self.client), // cheap clone behind the Arc
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block: None,
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function: function.to_owned(),
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datatype: PhantomData,
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})
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}
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/// Returns a new contract instance at `address`.
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///
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/// Clones `self` internally
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#[must_use]
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pub fn at<T: Into<Address>>(&self, address: T) -> Self
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where
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M: Clone,
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{
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let mut this = self.clone();
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this.address = address.into();
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this
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}
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/// Returns a new contract instance using the provided client
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///
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/// Clones `self` internally
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#[must_use]
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pub fn connect<N>(&self, client: Arc<N>) -> Contract<N>
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where
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N: Clone,
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{
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Contract { base_contract: self.base_contract.clone(), client, address: self.address }
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}
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}
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