Running scripts
You can run a script using its JSON-ABI and the path to its binary file. You can run the scripts with arguments. For this, you have to use the abigen!
macro seen previously.
// The abigen is used for the same purpose as with contracts (Rust bindings)
abigen!(Script(name="MyScript", abi="packages/fuels/tests/scripts/script_with_arguments/out/debug/script_with_arguments-abi.json"));
let wallet = launch_provider_and_get_wallet().await;
let bin_path =
"../fuels/tests/scripts/script_with_arguments/out/debug/script_with_arguments.bin";
let instance = MyScript::new(wallet, bin_path);
let bim = Bimbam { val: 90 };
let bam = SugarySnack {
twix: 100,
mars: 1000,
};
let result = instance.main(bim, bam).call().await?;
let expected = Bimbam { val: 2190 };
assert_eq!(result.value, expected);
Running scripts with transaction parameters
The method for passing transaction parameters is the same as with contracts. As a reminder, the workflow would look like this:
let parameters = TxParameters {
gas_price: 1,
gas_limit: 10000,
..Default::default()
};
let result = instance.main(a, b).tx_params(parameters).call().await?;
Logs
Script calls provide the same logging functions, get_logs()
and get_logs_with_type<T>()
, as contract calls. As a reminder, the workflow looks like this:
abigen!(Script(
name = "log_script",
abi = "packages/fuels/tests/logs/script_logs/out/debug/script_logs-abi.json"
));
let wallet = launch_provider_and_get_wallet().await;
let bin_path = "../fuels/tests/logs/script_logs/out/debug/script_logs.bin";
let instance = log_script::new(wallet.clone(), bin_path);
let response = instance.main().call().await?;
let logs = response.get_logs()?;
let log_u64 = response.get_logs_with_type::<u64>()?;
Calling contracts from scripts
Scripts use the same interfaces for setting external contracts as contract methods.
Below is an example that uses set_contracts(&[&contract_instance, ...])
.
let response = instance
.main(contract_id)
.set_contracts(&[&contract_instance])
.call()
.await?;
And this is an example that uses set_contract_ids(&[&contract_id, ...])
.
let response = instance
.main(contract_id)
.set_contract_ids(&[contract_id.into()])
.call()
.await?;
Configurable constants
Same as contracts, you can define configurable
constants in scripts
which can be changed during the script execution. Here is an example how the constants are defined.
script;
enum EnumWithGeneric<D> {
VariantOne: D,
VariantTwo: (),
}
struct StructWithGeneric<D> {
field_1: D,
field_2: u64,
}
configurable {
U8: u8 = 8u8,
BOOL: bool = true,
ARRAY: [u32; 3] = [253u32, 254u32, 255u32],
STR_4: str[4] = "fuel",
STRUCT: StructWithGeneric<u8> = StructWithGeneric {
field_1: 8u8,
field_2: 16,
},
ENUM: EnumWithGeneric<bool> = EnumWithGeneric::VariantOne(true),
}
fn main() -> (u8, bool, [u32; 3], str[4], StructWithGeneric<u8>, EnumWithGeneric<bool>) {
(U8, BOOL, ARRAY, STR_4, STRUCT, ENUM)
}
Each of the configurable constants will get a dedicated set
method in the SDK. For example, the constant STR_4
will get the set_str_4
method which accepts the same types as defined in sway. Below is an example where we chain several set
methods and execute the script with the new constants.
abigen!(Script(name="MyScript", abi="packages/fuels/tests/scripts/script_configurables/out/debug/script_configurables-abi.json"));
let wallet = launch_provider_and_get_wallet().await;
let bin_path = "../fuels/tests/scripts/script_configurables/out/debug/script_configurables.bin";
let instance = MyScript::new(wallet, bin_path);
let new_str: SizedAsciiString<4> = "FUEL".try_into()?;
let new_struct = StructWithGeneric {
field_1: 16u8,
field_2: 32,
};
let new_enum = EnumWithGeneric::VariantTwo;
let configurables = MyScriptConfigurables::new()
.set_STR_4(new_str.clone())
.set_STRUCT(new_struct.clone())
.set_ENUM(new_enum.clone());
let response = instance
.with_configurables(configurables.into())
.main()
.call()
.await?;