simulateContract โ
The simulateContract
function simulates/validates a contract interaction. This is useful for retrieving return data and revert reasons of contract write functions.
This function does not require gas to execute and does not change the state of the blockchain. It is almost identical to readContract
, but also supports contract write functions.
Internally, simulateContract
uses a Public Client to call the call
action with ABI-encoded data
.
Usage โ
Below is a very basic example of how to simulate a write function on a contract (with no arguments).
The mint
function accepts no arguments, and returns a token ID.
import { account, publicClient } from './config'
import { wagmiAbi } from './abi'
const { result } = await publicClient.simulateContract({
address: '0xFBA3912Ca04dd458c843e2EE08967fC04f3579c2',
abi: wagmiAbi,
functionName: 'mint',
account,
})
export const wagmiAbi = [
...
{
inputs: [],
name: "mint",
outputs: [{ name: "", type: "uint32" }],
stateMutability: "view",
type: "function",
},
...
] as const;
import { createPublicClient, http } from 'viem'
import { privateKeyToAccount } from 'viem/accounts'
import { mainnet } from 'viem/chains'
// JSON-RPC Account
export const [account] = '0xf39fd6e51aad88f6f4ce6ab8827279cfffb92266'
// Local Account
export const account = privateKeyToAccount(...)
export const publicClient = createPublicClient({
chain: mainnet,
transport: http()
})
Passing Arguments โ
If your function requires argument(s), you can pass them through with the args
attribute.
TypeScript types for args
will be inferred from the function name & ABI, to guard you from inserting the wrong values.
For example, the mint
function name below requires a tokenId argument, and it is typed as [number]
.
import { account, publicClient } from './config'
import { wagmiAbi } from './abi'
const { result } = await publicClient.simulateContract({
address: '0xFBA3912Ca04dd458c843e2EE08967fC04f3579c2',
abi: wagmiAbi,
functionName: 'mint',
args: [69420],
account,
})
export const wagmiAbi = [
...
{
inputs: [{ name: "owner", type: "uint32" }],
name: "mint",
outputs: [{ name: "", type: "uint32" }],
stateMutability: "view",
type: "function",
},
...
] as const;
import { createPublicClient, http } from 'viem'
import { privateKeyToAccount } from 'viem/accounts'
import { mainnet } from 'viem/chains'
// JSON-RPC Account
export const [account] = '0xf39fd6e51aad88f6f4ce6ab8827279cfffb92266'
// Local Account
export const account = privateKeyToAccount(...)
export const publicClient = createPublicClient({
chain: mainnet,
transport: http()
})
Pairing with writeContract
โ
The simulateContract
function also pairs well with writeContract
.
In the example below, we are validating if the contract write will be successful via simulateContract
. If no errors are thrown, then we are all good. After that, we perform a contract write to execute the transaction.
import { account, walletClient, publicClient } from './config'
import { wagmiAbi } from './abi'
const { request } = await publicClient.simulateContract({
address: '0xFBA3912Ca04dd458c843e2EE08967fC04f3579c2',
abi: wagmiAbi,
functionName: 'mint',
account,
})
const hash = await walletClient.writeContract(request)
export const wagmiAbi = [
...
{
inputs: [],
name: "mint",
outputs: [{ name: "", type: "uint32" }],
stateMutability: "view",
type: "function",
},
...
] as const;
import { createPublicClient, http } from 'viem'
import { privateKeyToAccount } from 'viem/accounts'
import { mainnet } from 'viem/chains'
// JSON-RPC Account
export const [account] = '0xf39fd6e51aad88f6f4ce6ab8827279cfffb92266'
// Local Account
export const account = privateKeyToAccount(...)
export const publicClient = createPublicClient({
chain: mainnet,
transport: http()
})
Return Value โ
The simulation result and write request. Type is inferred.
Parameters โ
address โ
- Type:
Address
The contract address.
const { result } = await publicClient.simulateContract({
address: '0xFBA3912Ca04dd458c843e2EE08967fC04f3579c2',
abi: wagmiAbi,
functionName: 'mint',
account: '0xf39fd6e51aad88f6f4ce6ab8827279cfffb92266'
})
abi โ
- Type:
Abi
The contract's ABI.
const { result } = await publicClient.simulateContract({
address: '0xFBA3912Ca04dd458c843e2EE08967fC04f3579c2',
abi: wagmiAbi,
functionName: 'mint',
account: '0xf39fd6e51aad88f6f4ce6ab8827279cfffb92266'
})
functionName โ
- Type:
string
A function to extract from the ABI.
const { result } = await publicClient.simulateContract({
address: '0xFBA3912Ca04dd458c843e2EE08967fC04f3579c2',
abi: wagmiAbi,
functionName: 'mint',
account: '0xf39fd6e51aad88f6f4ce6ab8827279cfffb92266'
})
account โ
- Type:
Account | Address
The Account to simulate the contract method from.
Accepts a JSON-RPC Account or Local Account (Private Key, etc).
const { result } = await publicClient.simulateContract({
address: '0xFBA3912Ca04dd458c843e2EE08967fC04f3579c2',
abi: wagmiAbi,
functionName: 'mint',
account: '0xf39fd6e51aad88f6f4ce6ab8827279cfffb92266'
})
accessList (optional) โ
- Type:
AccessList
The access list.
const { result } = await publicClient.simulateContract({
address: '0xFBA3912Ca04dd458c843e2EE08967fC04f3579c2',
abi: wagmiAbi,
functionName: 'mint',
args: [69420],
accessList: [{
address: '0xf39fd6e51aad88f6f4ce6ab8827279cfffb92266',
storageKeys: ['0x1'],
}],
account: '0xf39fd6e51aad88f6f4ce6ab8827279cfffb92266'
})
args (optional) โ
- Type: Inferred from ABI.
Arguments to pass to function call.
const { result } = await publicClient.simulateContract({
address: '0x1dfe7ca09e99d10835bf73044a23b73fc20623df',
abi: wagmiAbi,
functionName: 'balanceOf',
args: ['0xa5cc3c03994DB5b0d9A5eEdD10CabaB0813678AC'],
account: '0xf39fd6e51aad88f6f4ce6ab8827279cfffb92266'
})
gasPrice (optional) โ
- Type:
bigint
The price (in wei) to pay per gas. Only applies to Legacy Transactions.
const { result } = await publicClient.simulateContract({
address: '0xFBA3912Ca04dd458c843e2EE08967fC04f3579c2',
abi: wagmiAbi,
functionName: 'mint',
args: [69420],
account: '0xf39fd6e51aad88f6f4ce6ab8827279cfffb92266'
gasPrice: parseGwei('20'),
})
maxFeePerGas (optional) โ
- Type:
bigint
Total fee per gas (in wei), inclusive of maxPriorityFeePerGas
. Only applies to EIP-1559 Transactions
const { result } = await publicClient.simulateContract({
address: '0xFBA3912Ca04dd458c843e2EE08967fC04f3579c2',
abi: wagmiAbi,
functionName: 'mint',
args: [69420],
account: '0xf39fd6e51aad88f6f4ce6ab8827279cfffb92266'
maxFeePerGas: parseGwei('20'),
})
maxPriorityFeePerGas (optional) โ
- Type:
bigint
Max priority fee per gas (in wei). Only applies to EIP-1559 Transactions
const { result } = await publicClient.simulateContract({
address: '0xFBA3912Ca04dd458c843e2EE08967fC04f3579c2',
abi: wagmiAbi,
functionName: 'mint',
args: [69420],
account: '0xf39fd6e51aad88f6f4ce6ab8827279cfffb92266'
maxFeePerGas: parseGwei('20'),
maxPriorityFeePerGas: parseGwei('2'),
})
nonce (optional) โ
- Type:
number
Unique number identifying this transaction.
const { result } = await publicClient.simulateContract({
address: '0xFBA3912Ca04dd458c843e2EE08967fC04f3579c2',
abi: wagmiAbi,
functionName: 'mint',
args: [69420],
account: '0xf39fd6e51aad88f6f4ce6ab8827279cfffb92266'
nonce: 69
})
value (optional) โ
- Type:
number
Value in wei sent with this transaction.
const { result } = await publicClient.simulateContract({
address: '0xFBA3912Ca04dd458c843e2EE08967fC04f3579c2',
abi: wagmiAbi,
functionName: 'mint',
args: [69420],
account: '0xf39fd6e51aad88f6f4ce6ab8827279cfffb92266'
value: parseEther('1')
})
blockNumber (optional) โ
- Type:
number
The block number to perform the read against.
const { result } = await publicClient.simulateContract({
address: '0xFBA3912Ca04dd458c843e2EE08967fC04f3579c2',
abi: wagmiAbi,
functionName: 'mint',
account: '0xf39fd6e51aad88f6f4ce6ab8827279cfffb92266'
blockNumber: 15121123n,
})
blockTag (optional) โ
- Type:
'latest' | 'earliest' | 'pending' | 'safe' | 'finalized'
- Default:
'latest'
The block tag to perform the read against.
const { result } = await publicClient.simulateContract({
address: '0xFBA3912Ca04dd458c843e2EE08967fC04f3579c2',
abi: wagmiAbi,
functionName: 'mint',
account: '0xf39fd6e51aad88f6f4ce6ab8827279cfffb92266'
blockTag: 'safe',
})
Live Example โ
Check out the usage of simulateContract
in the live Writing to Contracts Example below.