Crates.io | deli |
lib.rs | deli |
version | 0.1.0 |
source | src |
created_at | 2022-11-23 01:29:08.023051 |
updated_at | 2022-11-23 01:29:08.023051 |
description | A convenience wrapper on `idb` create for easily creating and managing object stores in an indexed db on browsers using derive macros |
homepage | https://github.com/devashishdxt/deli |
repository | https://github.com/devashishdxt/deli |
max_upload_size | |
id | 721236 |
size | 74,254 |
Deli is a convenience wrapper on idb
create for easily creating and managing object stores in an indexed db on
browsers using derive macros.
To use deli
, you need to add the following in your Cargo.toml
:
[dependencies]
deli = "0.1"
deli
is intended to be used on browsers using webassembly. So, make sure to compile your project with
--target wasm32-unknown-unknown
. Alternatively, you can add following build configuration in your
.cargo/config.toml
:
[build]
target = "wasm32-unknown-unknown"
Model
The first step is to define your data model using Model
derive macro. You also need to implement
serde::Serialize
and serde::Deserialize
trait for your model so that the data can be converted to json
before
saving it into the store.
use deli::Model;
use serde::{Deserialize, Serialize};
#[derive(Serialize, Deserialize, Model)]
pub struct Employee {
#[deli(auto_increment)]
pub id: u32,
pub name: String,
#[deli(unique)]
pub email: String,
#[deli(index)]
pub age: u8,
}
Model
derive macro automatically implements Model
trait for your struct and creates a Store
for accessing and
writing data to the store.
#[deli(name)]
: In indexed DB, by default, it creates a new object store with name of the struct (in the above
example, it'll create an object store Employee
in indexed db) when creating a database. To change the default
object store name, use #[deli(name = "your_object_store_name")]
.
#[deli(store_name)]
: By default, the derive macro will create a <ModelName>Store
struct (in the above example,
it'll create a EmployeeStore
struct). To change the default name, use #[deli(store_name = "YourStoreName")]
.
#[deli(key)]
: Defines the primary key path for object store.#[deli(auto_increment)]
: Defines the primary key path for object store with auto_increment
values (implies
#[deli(key)]
).#[deli(index)]
: Creates an index for the field.#[deli(unique)]
: Creates an unique index for the field (implies #[deli(index)]
).#[deli(multi_entry)]
: Creates a multi entry index for the field (implies #[deli(index)]
).#[deli(rename)]
: Rename a field in object store. Note that this should be consistent with serde
serialization.
For example, if you use #[serde(rename_all = "camelCase")]
you need to appropriately rename the fields for
deli
to be in sync with serde serialization.Database
Next step is to create a new Database
and register your models with it.
use deli::{Database, Error};
async fn create_database() -> Result<Database, Error> {
let database = Database.builder("test_db", 1).register_model::<Employee>().await?;
}
Transaction
Once you've created a Database
instance, you can start reading and writing data to database using transactions.
use deli::{Database, Error, Transaction};
fn create_read_transaction(database: &Database) -> Result<Transaction, Error> {
database.transaction().with_model::<Employee>().build()
}
fn create_write_transaction(database: &Database) -> Result<Transaction, Error> {
database.transaction().writable().with_model::<Employee>().build()
}
You can add multiple .with_model::<Model>()
calls to add more than one model to the transaction.
Model
storeOnce you have a transaction for a model, you can read or write data to that model.
use deli::{Error, Model, Transaction};
async fn add_employee(transaction: &Transaction) -> Result<u32, Error> {
Employee::with_transaction(transaction)?.add("Alice", "alice@example.com", &25).await
}
async fn get_employee(transaction: &Transaction, id: u32) -> Result<Option<Employee>, Error> {
Employee::with_transaction(transaction)?.get(&id).await
}
async fn get_all_employees(transaction: &Transaction) -> Result<Vec<Employee>, Error> {
// NOTE: Here `..` (i.e., `RangeFull`) means fetch all values from store
Employee::with_transaction(transaction)?.get_all(.., None).await
}
async fn get_employees_with_bounds(
transaction: &Transaction,
from_id: u32,
to_id: u32,
) -> Result<Vec<Employee>, Error> {
Employee::with_transaction(transaction)?.get_all(&from_id..=&to_id, None).await
}
Transaction
After all your writes are done, you can commit the transaction:
async fn commit_transaction(transaction: Transaction) -> Result<(), Error> {
transaction.commit().await
}
Note that commit()
doesn’t normally have to be called — a transaction will automatically commit when all
outstanding requests have been satisfied and no new requests have been made.
Also, be careful when using long-lived indexed db transactions as the behavior may change depending on the browser. For example, the transaction may get auto-committed when doing IO (network request) in the event loop.
Licensed under either of
at your option.
Unless you explicitly state otherwise, any contribution intentionally submitted for inclusion in the work by you, as defined in the Apache-2.0 license, shall be dual licensed as above, without any additional terms or conditions.