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Advanced Storage

Icon LinkAdvanced Storage

Icon LinkNested Storage Collections

Through the use of StorageKeys, you may have nested storage collections such as storing a StorageString in a StorageMap<K, V>.

For example, here we have a few common nested storage types declared in a storage block:

storage {
    nested_map_vec: StorageMap<u64, StorageVec<u8>> = StorageMap {},
    nested_map_string: StorageMap<u64, StorageString> = StorageMap {},
    nested_vec_bytes: StorageVec<StorageBytes> = StorageVec {},
}

Please note that storage initialization is needed to do this.

Icon LinkStoring a StorageVec<T> in a StorageMap<K, V>

The following demonstrates how to write to a StorageVec<T> that is nested in a StorageMap<T, V>:

    // Setup and initialize storage for the StorageVec.
    storage.nested_map_vec.try_insert(10, StorageVec {});
 
    // Method 1: Push to the vec directly
    storage.nested_map_vec.get(10).push(1u8);
    storage.nested_map_vec.get(10).push(2u8);
    storage.nested_map_vec.get(10).push(3u8);
 
    // Method 2: First get the storage key and then push the values.
    let storage_key_vec: StorageKey<StorageVec<u8>> = storage.nested_map_vec.get(10);
    storage_key_vec.push(4u8);
    storage_key_vec.push(5u8);
    storage_key_vec.push(6u8);
}
#[storage(read, write)]
fn get_map_vec() {
    // Method 1: Access the StorageVec directly.
    let stored_val1: u8 = storage.nested_map_vec.get(10).pop().unwrap();
    let stored_val2: u8 = storage.nested_map_vec.get(10).pop().unwrap();
    let stored_val3: u8 = storage.nested_map_vec.get(10).pop().unwrap();
 
    // Method 2: First get the storage key and then access the value.
    let storage_key: StorageKey<StorageVec<u8>> = storage.nested_map_vec.get(10);
    let stored_val4: u8 = storage_key.pop().unwrap();
    let stored_val5: u8 = storage_key.pop().unwrap();
    let stored_val6: u8 = storage_key.pop().unwrap();
}
 
#[storage(write)]
fn store_map_string() {
    // Setup and initialize storage for the StorageString.
    storage.nested_map_string.try_insert(10, StorageString {});
 
    // Method 1: Store the string directly.
    let my_string = String::from_ascii_str("Fuel is blazingly fast");
    storage.nested_map_string.get(10).write_slice(my_string);
 
    // Method 2: First get the storage key and then write the value.
    let my_string = String::from_ascii_str("Fuel is modular");
    let storage_key: StorageKey<StorageString> = storage.nested_map_string.get(10);
    storage_key.write_slice(my_string);
}
#[storage(read)]
fn get_map_string() {
    // Method 1: Access the string directly.
    let stored_string: String = storage.nested_map_string.get(10).read_slice().unwrap();
 
    // Method 2: First get the storage key and then access the value.
    let storage_key: StorageKey<StorageString> = storage.nested_map_string.get(10);
    let stored_string: String = storage_key.read_slice().unwrap();
}
 
#[storage(write)]
fn store_vec() {
    // Setup Bytes to store
    let mut my_bytes = Bytes::new();
    my_bytes.push(1u8);
    my_bytes.push(2u8);
    my_bytes.push(3u8);
 
    // Setup and initialize storage for the StorageBytes.
    storage.nested_vec_bytes.push(StorageBytes {});
 
    // Method 1: Store the bytes by accessing StorageBytes directly.
    storage
        .nested_vec_bytes
        .get(0)
        .unwrap()
        .write_slice(my_bytes);
 
    // Method 2: First get the storage key and then write the bytes.
    let storage_key: StorageKey<StorageBytes> = storage.nested_vec_bytes.get(0).unwrap();
    storage_key.write_slice(my_bytes);

The following demonstrates how to read from a StorageVec<T> that is nested in a StorageMap<T, V>:

    // Method 1: Access the StorageVec directly.
    let stored_val1: u8 = storage.nested_map_vec.get(10).pop().unwrap();
    let stored_val2: u8 = storage.nested_map_vec.get(10).pop().unwrap();
    let stored_val3: u8 = storage.nested_map_vec.get(10).pop().unwrap();
 
    // Method 2: First get the storage key and then access the value.
    let storage_key: StorageKey<StorageVec<u8>> = storage.nested_map_vec.get(10);
    let stored_val4: u8 = storage_key.pop().unwrap();
    let stored_val5: u8 = storage_key.pop().unwrap();
    let stored_val6: u8 = storage_key.pop().unwrap();
}
 
#[storage(write)]
fn store_map_string() {
    // Setup and initialize storage for the StorageString.
    storage.nested_map_string.try_insert(10, StorageString {});
 
    // Method 1: Store the string directly.
    let my_string = String::from_ascii_str("Fuel is blazingly fast");
    storage.nested_map_string.get(10).write_slice(my_string);
 
    // Method 2: First get the storage key and then write the value.
    let my_string = String::from_ascii_str("Fuel is modular");
    let storage_key: StorageKey<StorageString> = storage.nested_map_string.get(10);
    storage_key.write_slice(my_string);
}
#[storage(read)]
fn get_map_string() {
    // Method 1: Access the string directly.
    let stored_string: String = storage.nested_map_string.get(10).read_slice().unwrap();
 
    // Method 2: First get the storage key and then access the value.
    let storage_key: StorageKey<StorageString> = storage.nested_map_string.get(10);
    let stored_string: String = storage_key.read_slice().unwrap();
}
 
#[storage(write)]
fn store_vec() {
    // Setup Bytes to store
    let mut my_bytes = Bytes::new();
    my_bytes.push(1u8);
    my_bytes.push(2u8);
    my_bytes.push(3u8);
 
    // Setup and initialize storage for the StorageBytes.
    storage.nested_vec_bytes.push(StorageBytes {});
 
    // Method 1: Store the bytes by accessing StorageBytes directly.
    storage
        .nested_vec_bytes
        .get(0)
        .unwrap()
        .write_slice(my_bytes);
 
    // Method 2: First get the storage key and then write the bytes.
    let storage_key: StorageKey<StorageBytes> = storage.nested_vec_bytes.get(0).unwrap();
    storage_key.write_slice(my_bytes);
}
#[storage(read, write)]
fn get_vec() {
    // Method 1: Access the stored bytes directly.
    let stored_bytes: Bytes = storage.nested_vec_bytes.get(0).unwrap().read_slice().unwrap();
 
    // Method 2: First get the storage key and then access the stored bytes.
    let storage_key: StorageKey<StorageBytes> = storage.nested_vec_bytes.get(0).unwrap();
    let stored_bytes: Bytes = storage_key.read_slice().unwrap();

Icon LinkStoring a StorageString in a StorageMap<K, V>

The following demonstrates how to write to a StorageString that is nested in a StorageMap<T, V>:

// Setup and initialize storage for the StorageString.
storage.nested_map_string.try_insert(10, StorageString {});
 
// Method 1: Store the string directly.
let my_string = String::from_ascii_str("Fuel is blazingly fast");
storage.nested_map_string.get(10).write_slice(my_string);
 
// Method 2: First get the storage key and then write the value.
let my_string = String::from_ascii_str("Fuel is modular");
let storage_key: StorageKey<StorageString> = storage.nested_map_string.get(10);
storage_key.write_slice(my_string);

The following demonstrates how to read from a StorageString that is nested in a StorageMap<T, V>:

// Method 1: Access the string directly.
let stored_string: String = storage.nested_map_string.get(10).read_slice().unwrap();
 
// Method 2: First get the storage key and then access the value.
let storage_key: StorageKey<StorageString> = storage.nested_map_string.get(10);
let stored_string: String = storage_key.read_slice().unwrap();

Icon LinkStoring a StorageBytes in a StorageVec<T>

The following demonstrates how to write to a StorageBytes that is nested in a StorageVec<T>:

    // Setup and initialize storage for the StorageVec.
    storage.nested_map_vec.try_insert(10, StorageVec {});
 
    // Method 1: Push to the vec directly
    storage.nested_map_vec.get(10).push(1u8);
    storage.nested_map_vec.get(10).push(2u8);
    storage.nested_map_vec.get(10).push(3u8);
 
    // Method 2: First get the storage key and then push the values.
    let storage_key_vec: StorageKey<StorageVec<u8>> = storage.nested_map_vec.get(10);
    storage_key_vec.push(4u8);
    storage_key_vec.push(5u8);
    storage_key_vec.push(6u8);
}
#[storage(read, write)]
fn get_map_vec() {
    // Method 1: Access the StorageVec directly.
    let stored_val1: u8 = storage.nested_map_vec.get(10).pop().unwrap();
    let stored_val2: u8 = storage.nested_map_vec.get(10).pop().unwrap();
    let stored_val3: u8 = storage.nested_map_vec.get(10).pop().unwrap();
 
    // Method 2: First get the storage key and then access the value.
    let storage_key: StorageKey<StorageVec<u8>> = storage.nested_map_vec.get(10);
    let stored_val4: u8 = storage_key.pop().unwrap();
    let stored_val5: u8 = storage_key.pop().unwrap();
    let stored_val6: u8 = storage_key.pop().unwrap();
}
 
#[storage(write)]
fn store_map_string() {
    // Setup and initialize storage for the StorageString.
    storage.nested_map_string.try_insert(10, StorageString {});
 
    // Method 1: Store the string directly.
    let my_string = String::from_ascii_str("Fuel is blazingly fast");
    storage.nested_map_string.get(10).write_slice(my_string);
 
    // Method 2: First get the storage key and then write the value.
    let my_string = String::from_ascii_str("Fuel is modular");
    let storage_key: StorageKey<StorageString> = storage.nested_map_string.get(10);
    storage_key.write_slice(my_string);
}
#[storage(read)]
fn get_map_string() {
    // Method 1: Access the string directly.
    let stored_string: String = storage.nested_map_string.get(10).read_slice().unwrap();
 
    // Method 2: First get the storage key and then access the value.
    let storage_key: StorageKey<StorageString> = storage.nested_map_string.get(10);
    let stored_string: String = storage_key.read_slice().unwrap();
}
 
#[storage(write)]
fn store_vec() {
    // Setup Bytes to store
    let mut my_bytes = Bytes::new();
    my_bytes.push(1u8);
    my_bytes.push(2u8);
    my_bytes.push(3u8);
 
    // Setup and initialize storage for the StorageBytes.
    storage.nested_vec_bytes.push(StorageBytes {});
 
    // Method 1: Store the bytes by accessing StorageBytes directly.
    storage
        .nested_vec_bytes
        .get(0)
        .unwrap()
        .write_slice(my_bytes);
 
    // Method 2: First get the storage key and then write the bytes.
    let storage_key: StorageKey<StorageBytes> = storage.nested_vec_bytes.get(0).unwrap();
    storage_key.write_slice(my_bytes);

The following demonstrates how to read from a StorageBytes that is nested in a StorageVec<T>:

    // Method 1: Access the StorageVec directly.
    let stored_val1: u8 = storage.nested_map_vec.get(10).pop().unwrap();
    let stored_val2: u8 = storage.nested_map_vec.get(10).pop().unwrap();
    let stored_val3: u8 = storage.nested_map_vec.get(10).pop().unwrap();
 
    // Method 2: First get the storage key and then access the value.
    let storage_key: StorageKey<StorageVec<u8>> = storage.nested_map_vec.get(10);
    let stored_val4: u8 = storage_key.pop().unwrap();
    let stored_val5: u8 = storage_key.pop().unwrap();
    let stored_val6: u8 = storage_key.pop().unwrap();
}
 
#[storage(write)]
fn store_map_string() {
    // Setup and initialize storage for the StorageString.
    storage.nested_map_string.try_insert(10, StorageString {});
 
    // Method 1: Store the string directly.
    let my_string = String::from_ascii_str("Fuel is blazingly fast");
    storage.nested_map_string.get(10).write_slice(my_string);
 
    // Method 2: First get the storage key and then write the value.
    let my_string = String::from_ascii_str("Fuel is modular");
    let storage_key: StorageKey<StorageString> = storage.nested_map_string.get(10);
    storage_key.write_slice(my_string);
}
#[storage(read)]
fn get_map_string() {
    // Method 1: Access the string directly.
    let stored_string: String = storage.nested_map_string.get(10).read_slice().unwrap();
 
    // Method 2: First get the storage key and then access the value.
    let storage_key: StorageKey<StorageString> = storage.nested_map_string.get(10);
    let stored_string: String = storage_key.read_slice().unwrap();
}
 
#[storage(write)]
fn store_vec() {
    // Setup Bytes to store
    let mut my_bytes = Bytes::new();
    my_bytes.push(1u8);
    my_bytes.push(2u8);
    my_bytes.push(3u8);
 
    // Setup and initialize storage for the StorageBytes.
    storage.nested_vec_bytes.push(StorageBytes {});
 
    // Method 1: Store the bytes by accessing StorageBytes directly.
    storage
        .nested_vec_bytes
        .get(0)
        .unwrap()
        .write_slice(my_bytes);
 
    // Method 2: First get the storage key and then write the bytes.
    let storage_key: StorageKey<StorageBytes> = storage.nested_vec_bytes.get(0).unwrap();
    storage_key.write_slice(my_bytes);
}
#[storage(read, write)]
fn get_vec() {
    // Method 1: Access the stored bytes directly.
    let stored_bytes: Bytes = storage.nested_vec_bytes.get(0).unwrap().read_slice().unwrap();
 
    // Method 2: First get the storage key and then access the stored bytes.
    let storage_key: StorageKey<StorageBytes> = storage.nested_vec_bytes.get(0).unwrap();
    let stored_bytes: Bytes = storage_key.read_slice().unwrap();

Icon LinkStorage Namespace

If you want the values in storage to be positioned differently, for instance to avoid collisions with storage from another contract when loading code, you can use the namespace annotation to add a salt to the slot calculations.

#[namespace(example_namespace)]
storage {

Icon LinkManual Storage Management

It is possible to leverage FuelVM storage operations directly using the std::storage::storage_api::write and std::storage::storage_api::read functions provided in the standard library. With this approach, you will have to manually assign the internal key used for storage. An example is as follows:

contract;
 
use std::storage::storage_api::{read, write};
 
abi StorageExample {
    #[storage(write)]
    fn store_something(amount: u64);
 
    #[storage(read)]
    fn get_something() -> u64;
}
 
const STORAGE_KEY: b256 = 0x0000000000000000000000000000000000000000000000000000000000000000;
 
impl StorageExample for Contract {
    #[storage(write)]
    fn store_something(amount: u64) {
        write(STORAGE_KEY, 0, amount);
    }
 
    #[storage(read)]
    fn get_something() -> u64 {
        let value: Option<u64> = read::<u64>(STORAGE_KEY, 0);
        value.unwrap_or(0)
    }
}
 
Icon InfoCircle

Note: Though these functions can be used for any data type, they should mostly be used for arrays because arrays are not yet supported in storage blocks. Note, however, that all data types can be used as types for keys and/or values in StorageMap<K, V> without any restrictions.