_section: Contract @ @SRC A **Contract** is an abstraction of code that has been deployed to the blockchain. A Contract may be sent transactions, which will trigger its code to be run with the input of the transaction data. _subsection: Creating Instances @ _property: new ethers.Contract(address, abi, signerOrProvider) @src _property: contract.attach(addressOrName) => [[Contract]] @ @SRC Returns a new instance of the **Contract** attached to a new address. This is useful if there are multiple similar or identical copies of a Contract on the network and you wish to interact with each of them. _property: contract.connect(providerOrSigner) => [[Contract]] @ @SRC Returns a new instance of the Contract, but connected to //providerOrSigner//. By passing in a [[Provider]], this will return a downgraded **Contract** which only has read-only access (i.e. constant calls). By passing in a [[Signer]]. this will return a **Contract** which will act on behalf of that signer. _subsection: Properties @ _property: contract.address => string<[[address]]> This is the address (or ENS name) the contract was constructed with. _property: contract.resolvedAddress => string<[[address]]> This is a promise that will resolve to the address the **Contract** object is attached to. If an [[address]] was provided to the constructor, it will be equal to this; if an ENS name was provided, this will be the resolved address. _property: contract.deployTransaction => [[providers-TransactionResponse]] If the **Contract** object is the result of a ContractFactory deployment, this is the transaction which was used to deploy the contract. _property: contract.interface => [[Interface]] This is the ABI as an [[Interface]]. _property: contract.provider => [[Provider]] If a provider was provided to the constructor, this is that provider. If a signer was provided that had a [[Provider]], this is that provider. _property: contract.signer => [[Signer]] If a signer was provided to the constructor, this is that signer. _subsection: Methods @ _property: contract.deployed() => Promise<[[Contract]]> @ @SRC _property: Contract.isIndexed(value) => boolean @ @SRC _subsection: Events @ _property: contract.queryFilter(event [ , fromBlockOrBlockHash [ , toBlock ]) => Promise> @ @SRC Return Events that match the //event//. _property: contract.listenerCount([ event ]) => number @ @SRC Return the number of listeners that are subscribed to //event//. If no event is provided, returns the total count of all events. _property: contract.listeners(event) => Array @ @SRC Return a list of listeners that are subscribed to //event//. _property: contract.off(event, listener) => this @ @SRC Unsubscribe //listener// to //event//. _property: contract.on(event, listener) => this @ @SRC Subscribe to //event// calling //listener// when the event occurs. _property: contract.once(event, listener) => this @ @SRC Subscribe once to //event// calling //listener// when the event occurs. _property: contract.removeAllListeners([ event ]) => this @ @SRC Unsubscribe all listeners for //event//. If no event is provided, all events are unsubscribed. _subsection: Meta-Class @ A Meta-Class is a Class which has any of its properties determined at run-time. The **Contract** object uses a Contract's ABI to determine what methods are available, so the following sections describe the generic ways to interact with the properties added at run-time during the **Contract** constructor. _heading: Read-Only Methods (constant) @ A constant method is read-only and evaluates a small amount of EVM code against the current blockchain state and can be computed by asking a single node, which can return a result. It is therefore free and does not require any ether, but **cannot make changes** to the blockchain state.. _property: contract.METHOD_NAME(...args [, overrides ]) => Promise @ The type of the result depends on the ABI. If the method returns a single value, it will be returned directly, otherwise a [[Result]] object will be returned with each parameter available positionally and if the parameter is named, it will also be available by its name. For values that have a simple meaning in JavaScript, the types are fairly straight forward; strings and booleans are returned as JavaScript strings and booleans. For numbers, if the **type** is in the JavaScript safe range (i.e. less than 53 bits, such as an ``int24`` or ``uint48``) a normal JavaScript number is used. Otherwise a [[BigNumber]] is returned. For bytes (both fixed length and dynamic), a [[DataHexString]] is returned. The //overrides// object for a read-only method may include any of: - ``overrides.from`` - the ``msg.sender`` (or ``CALLER``) to use during the execution of the code - ``overrides.value`` - the ``msg.value`` (or ``CALLVALUE``) to use during the exectuiont of the code - ``overrides.gasPrice`` - the price to pay per gas (theoretically); since there is no transaction, there is not going to be any fee charged, but the EVM still requires a value to report to ``tx.gasprice`` (or ``GASPRICE``); //most developers will not require this// - ``overrides.gasLimit`` - the amount of gas (theoretically) to allow a node to use during the execution of the code; since there is no transaction, there is not going to be any fee charged, but the EVM still processes gas metering so calls like ``gasleft`` (or ``GAS``) report meaningful values - ``overrides.blockTag`` - a block tag to simulate the execution at, which can be used for hypothetical historic analysis; note that many backends do not support this, or may require paid plans to access as the node database storage and processing requirements are much higher _property: contract.functions.METHOD_NAME(...args [, overrides ]) => Promise<[[Result]]> The result will always be a [[Result]], even if there is only a single return value type. This simplifies frameworks which wish to use the [[Contract]] object, since they do not need to inspect the return types to unwrap simplified functions. Another use for this method is for error recovery. For example, if a function result is an invalid UTF-8 string, the normal call using the above meta-class function will throw an exception. This allows using the Result access error to access the low-level bytes and reason for the error allowing an alternate UTF-8 error strategy to be used. Most developers should not require this. The //overrides// are identical to the read-only operations above. _heading: Write Methods (non-constant) @ A non-constant method requires a transaction to be signed and requires payment in the form of a fee to be paid to a miner. This transaction will be verified by every node on the entire network as well by the miner who will compute the new state of the blockchain after executing it against the current state. It cannot return a result. If a result is required, it should be logged using a Solidity event (or EVM log), which can then be queried from the transaction receipt. _property: contract.METHOD_NAME(...args [ , overrides ]) => Promise<[[providers-TransactionResponse]]> @ Returns a [[providers-TransactionResponse]] for the transaction after it is sent to the network. This requires the **Contract** has a signer. The //overrides// object for write methods may include any of: - ``overrides.gasPrice`` - the price to pay per gas - ``overrides.gasLimit`` - the limit on the amount of gas to allow the transaction to consume; any unused gas is returned at the gasPrice - ``overrides.value`` - the amount of ether (in wei) to forward with the call - ``overrides.nonce`` - the nonce to use for the [[Signer]] _heading: Write Methods Analysis @ There are several options to analyze properties and results of a write method without actually executing it. _property: contract.estimateGas.METHOD_NAME(...args [ , overrides ]) => Promise<[[BigNumber]]> @ Returns the estimate units of gas that would be required to execute the //METHOD_NAME// with //args// and //overrides//. The //overrides// are identical to the overrides above for read-only or write methods, depending on the type of call of //METHOD_NAME//. _property: contract.populateTransaction.METHOD_NAME(...args [ , overrides ]) => Promise<[UnsignedTx](UnsignedTransaction)> @ Returns an [[UnsignedTransaction]] which represents the transaction that would need to be signed and submitted to the network to execute //METHOD_NAME// with //args// and //overrides//. The //overrides// are identical to the overrides above for read-only or write methods, depending on the type of call of //METHOD_NAME//. _property: contract.callStatic.METHOD_NAME(...args [ , overrides ]) => Promise @ Rather than executing the state-change of a transaction, it is possible to ask a node to //pretend// that a call is not state-changing and return the result. This does not actually change any state, but is free. This in some cases can be used to determine if a transaction will fail or succeed. This otherwise functions the same as a [Read-Only Method](Contract--readonly). The //overrides// are identical to the read-only operations above. _heading: Event Filters @ An event filter is made up of topics, which are values logged in a [[link-wiki-bloomfilter]], allowing efficient searching for entries which match a filter. _property: contract.filters.EVENT_NAME(...args) => Filter Return a filter for //EVENT_NAME//, optionally filtering by additional constraints. Only ``indexed`` event parameters may be filtered. If a parameter is null (or not provided) then any value in that field matches.