8.2 KiB
Interface
The Interface Class abstracts the encoding and decoding required to interact with contracts on the Ethereum network.
Many of the standards organically evolved along side the Solidity language, which other languages have adopted to remain compatibile with existing deployed contracts.
The EVM itself does not understand what the ABI is. It is simply an agreed upon set of formats to encode various types of data which each contract can expect so they can interoperate with each other.
Creating Instances
new ethers . utils . Interface ( abi )
Create a new Interface from a JSON string or object representing abi.
The abi may be a JSON string or the parsed Object (using JSON.parse) which is emitted by the Solidity compiler (or compatible languages).
The abi may also be a Human-Readable Abi, which is a format the Ethers created to simplify manually typing the ABI into the source and so that a Contract ABI can also be referenced easily within the same source file.
Properties
interface . fragments => Array< Fragment >
All the Fragments in the interface.
interface . events => Array< EventFragment >
All the Event Fragments in the interface.
interface . functions => Array< FunctionFragment >
All the Function Fragments in the interface.
interface . deploy => ConstructorFragment
The Constructor Fragments for the interface.
Formatting
interface . format ( [ format ] ) => string|Array< string >
Return the formatted Interface. If the format type is json
a
single string is returned, otherwise an Array of the human-readable
strings is returned.
Fragment Access
interface . getFunction ( fragment ) => FunctionFragment
Returns the FunctionFragment for fragment (see Specifying Fragments).
interface . getEvent ( fragment ) => EventFragment
Returns the EventFragment for fragment (see Specifying Fragments).
Signature and Topic Hashes
interface . getSighash ( fragment ) => string< DataHexstring< 4 > >
Return the sighash (or Function Selector) for fragment (see Specifying Fragments).
interface . getEventTopic ( fragment ) => string< DataHexstring< 32 > >
Return the topic hash for fragment (see Specifying Fragments).
Encoding Data
interface . encodeDeploy ( [ values ] ) => string< DataHexstring >
Return the encoded deployment data, which can be concatenated to the deployment bytecode of a contract to pass values into the contract constructor.
interface . encodeFilterTopics ( fragment [ , values ] ) => Array< topic|Array< topic > >
Returns the encoded topic filter, which can be passed to getLogs for fragment (see Specifying Fragments) for the given values.
Each topic is a 32 byte (64 nibble) DataHexstring.
interface . encodeFunctionData ( fragment [ , values ] ) => string< DataHexstring >
Returns the encoded data, which can be used as the data for a transaction for fragment (see Specifying Fragments) for the given values.
interface . encodeFunctionResult ( fragment [ , values ] ) => string< DataHexstring >
Returns the encoded result, which would normally be the response from a call for fragment (see Specifying Fragments) for the given values.
Most developers will not need this method, but may be useful for authors of a mock blockchain.
Decoding Data
interface . decodeEventLog ( fragment , data [ , topics ] ) => Result
Returns the decoded event values from an event log for fragment (see Specifying Fragments) for the given data with the optional topics.
If topics is not specified, placeholders will be inserted into the result.
interface . decodeFunctionData ( fragment , data ) => Result
Returns the decoded values from transaction data for fragment (see Specifying Fragments) for the given data.
Most developers will not need this method, but may be useful for debugging or inspecting transactions.
interface . decodeFunctionResult ( fragment , data ) => Result
Returns the decoded values from the result of a call for fragment (see Specifying Fragments) for the given data.
Parsing
The functions are generally the most useful for most developers. They will automatically search the ABI for a matching Event or Function and decode the components as a fully specified description.
interface . parseLog ( log ) => LogDescription
Search the event that matches the log topic hash and parse the values the log represents.
interface . parseTransaction ( transaction ) => TransactionDescription
Search for the function that matches the transaction data sighash and parse the transaction properties.
Types
Result
A Result is an array, so each value can be accessed as a positional argument.
Additionally, if values are named, the identical object as its positional value can be accessed by its name.
The name length
is however reserved as it is part of the Array, so
any named value for this key is renamed to _length
. If there is a
name collision, only the first is available by its key.
LogDescription
logDescription . args => Result
The values of the input parameters of the event.
logDescription . eventFragment => EventFragment
The EventFragment which matches the topic in the Log.
logDescription . name => string
The event name. (e.g. Transfer
)
logDescription . signature => string
The event signature. (e.g. Transfer(address,address,uint256)
)
logDescription . topic => string
The topic hash.
TransactionDescription
transactionDescription . args => Result
The decoded values from the transaction data which were passed as the input parameters.
transactionDescription . functionFragment => FunctionFragment
The FunctionFragment which matches the sighash in the transaction data.
transactionDescription . name => string
The name of the function. (e.g. transfer
)
transactionDescription . sighash => string
The sighash (or function selector) that matched the transaction data.
transactionDescription . signature => string
The signature of the function. (e.g. transfer(address,uint256)
)
transactionDescription . value => BigNumber
The value from the transaction.
Specifying Fragments
When specifying a fragment to any of the functions in an Interface, any of the following may be used:
- The name of the event or function, if it is unique and non-ambiguous within the ABI (e.g.
transfer
) - The signature of the event or function. The signature is normalized, so, for example,
uint
anduint256
are equivalent (e.g.transfer(address, uint)
) - The sighash or topichash of the function. The sighash is often referred to the function selector in Solidity (e.g.
0xa9059cbb
) - A Fragment
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