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0.4.0 Apr 7, 2024
0.3.0 Mar 15, 2024
0.2.0 Mar 15, 2024
0.1.0 Mar 15, 2024

#129 in #top


Used in 3 crates (via miniorm)

MIT license

20KB
248 lines

miniorm

Build Test Clippy Doc

Crates.io Docs.rs Crates.io Crates.io

Introduction

The miniorm crate provides a very simple ORM on top of sqlx.

sqlx already provides a FromRow trait that can be derived automatically in order to convert a row from the database into an object. However, there is no corresponding macro that would allow convert an object back into a row to be inserted into the database.

This is where miniorm comes in. It provides multiple traits that can also be automatically derived. Using these traits, miniorm provides a Store type that builds on top and all the standard "CRUD" operations:

  • (C)reate
  • (R)ead
  • (U)pdate
  • (D)elete

At the moment, miniorm supports the three most common database backend:

  • Sqlite
  • MySql
  • Postgres

Each backend should be enabled using the corresponding feature flag.

Example

use sqlx::FromRow;
use miniorm::prelude::*;

#[derive(Debug, Clone, Eq, PartialEq, FromRow, Entity)]
struct Todo {
    #[column(TEXT NOT NULL)]
    description: String,

    #[column(BOOLEAN NOT NULL DEFAULT false)]
    done: bool,
}

#[tokio::main]
async fn main() -> Result<(), Box<dyn std::error::Error>> {
    let db = sqlx::SqlitePool::connect(":memory:").await?;
    let store = miniorm::Store::new(db);

    let todo = Todo {
        description: "checkout miniorm".into(),
        done: false,
    };

    store.recreate_table().await?;

    println!("Inserting...");
    let todo = store.create(todo).await?;

    println!("Retrieveing by id...");
    let mut fetched = store.read(todo.id()).await?;
    assert_eq!(todo, fetched);

    println!("Updating by id...");
    fetched.done = true;
    let after_update = store.update(fetched).await?;
    assert_eq!(after_update.id(), todo.id());

    println!("Listing all...");
    let all = store.list().await?;
    assert_eq!(all.len(), 1);
    assert_eq!(&after_update, &all[0]);

    println!("Deleting by id...");
    store.delete(todo.id()).await?;

    println!("Checking delete successful");
    assert!(matches!(
        store.read(todo.id()).await,
        Err(sqlx::Error::RowNotFound)
    ));

    Ok(())
}
This example requires the sqlite and

But wait, there's more!

One can turn a Store into an Router that can be installed to serve these CRUD operations over a REST api. For this your entity type should implement Serialize and Deserialize from serde

This requires the axum feature flag.

use axum::Router;
use miniorm::prelude::*;
use serde::{Deserialize, Serialize};
use sqlx::{FromRow, SqlitePool};
use std::net::SocketAddr;
use tokio::net::TcpListener;

#[derive(Debug, Clone, Eq, PartialEq, FromRow, Entity, Serialize, Deserialize)]
struct Todo {
    #[column(TEXT NOT NULL)]
    description: String,

    #[column(BOOLEAN NOT NULL DEFAULT false)]
    done: bool,
}

impl Todo {
    pub fn new(description: impl AsRef<str>) -> Self {
        let description = description.as_ref().to_string();
        let done = false;
        Todo { description, done }
    }
}

#[tokio::main]
async fn main() -> Result<(), Box<dyn std::error::Error>> {
    // connect to db 
    let db = sqlx::SqlitePool::connect(":memory:").await?;

    // initialize todo store
    let todos = Store::new(db);
    todos.recreate_table().await?;
    todos.create(Todo::new("do the laundry")).await?;
    todos.create(Todo::new("wash the dishes")).await?;
    todos.create(Todo::new("go walk the dog")).await?;
    todos.create(Todo::new("groceries")).await?;

    // create the app
    let app = Router::new().nest("/todos", todos.into_axum_router());
    let addr = SocketAddr::from(([127, 0, 0, 1], 3000));
    println!("listening on http://{}", addr);

    // serve the app
    let listener = TcpListener::bind(&addr).await.unwrap();
    axum::serve(listener, app).await?;

    Ok(())
}
This example requires the sqlite and axum feature flags.

Dependencies

~1–1.6MB
~33K SLoC