Lib.rs

Parser implementations
#uuid #type-safe #standard #prefix #prefixed #user-id #order-id #serde

no-std puuid

Prefixed UUIDs: Type-safe, string-prefixed UUIDs that behave like standard UUIDs

Owned by harihar-nautiyal.

3 unstable releases

Uses new Rust 2024

new 0.2.0 Apr 6, 2026
0.1.1 Apr 6, 2026
0.1.0 Dec 24, 2025

#1742 in Parser implementations

Download history 13/week @ 2026-02-26 50/week @ 2026-03-12 10/week @ 2026-03-19 28/week @ 2026-03-26

93 downloads per month

MIT license

15KB
216 lines

puuid

Latest Version

Type-safe, readable IDs. Just like Stripe.

Raw UUIDs are annoying. When you see 550e8400-e29b... in your logs, you have no idea if that's a User ID, an Order ID, or an API Key.

Even worse, if you have a function fn process(user_id: Uuid, order_id: Uuid), it is terrifyingly easy to swap the arguments by mistake. The compiler won't catch it.

puuid fixes this by adding Prefixes and Type Safety.

The Result

// ❌ Before: Mystery Strings
"018c6427-4f30-7f89-a1b2-c3d4e5f67890"

// ✅ After: Self-Describing IDs
"user_018c6427-4f30-7f89-a1b2-c3d4e5f67890"
"ord_018c6427-4f30-7f89-a1b2-c3d4e5f67890"

Installation

Add this to your Cargo.toml:

[dependencies]
puuid = { version = "0.1", features = ["serde", "v7"] }

Features available: v4 (random), v7 (time-sorted, recommended), serde, v1, v3, v5.

How to use it

1. The Setup

You define your prefixes once, usually in a models.rs or types.rs file.

use puuid::{Puuid, prefix};

// Define the prefixes
prefix!(User, "user");
prefix!(Order, "ord");
prefix!(ApiKey, "sk");

// Define your strong types
pub type UserId = Puuid<User>;
pub type OrderId = Puuid<Order>;
pub type SecretKey = Puuid<ApiKey>;

2. Generating IDs

By default, we recommend UUID v7. They are sortable by time (great for databases) and random enough to be unique.

fn main() {
    let user_id = UserId::new_v7();
    let order_id = OrderId::new_v7();

    println!("Created User: {}", user_id); 
    // Output: user_018c6427-4f30-7f89-a1b2-c3d4e5f67890
}

3. Type Safety (The Best Part)

The compiler now protects you from mixing up IDs.

fn delete_order(id: OrderId) {
    println!("Deleting order: {}", id);
}

fn main() {
    let user_id = UserId::new_v7();

    // ❌ Compile Error: expected OrderId, found UserId
    // delete_order(user_id); 
}

4. Serde Integration

If you enable the serde feature, puuid handles JSON serialization and deserialization automatically. It even validates the prefix for you!

#[derive(Serialize, Deserialize)]
struct CheckoutSession {
    id: OrderId,
    customer: UserId,
}

fn main() {
    // If the JSON string starts with "ord_", it works.
    // If it starts with "user_" (or is just a raw UUID), it fails deserialization.
    let json = r#"{ 
        "id": "ord_018...", 
        "customer": "user_018..." 
    }"#;
    
    let session: CheckoutSession = serde_json::from_str(json).unwrap();
}

Common Questions

Does this add overhead? Zero. Puuid<T> is a "New Type" wrapper around the standard uuid::Uuid. It compiles down to the exact same thing as a raw UUID.

Can I use standard UUID methods? Yes. Puuid implements Deref, so you can call any method from the uuid crate directly on it.

let id = UserId::new_v7();
let bytes = id.as_bytes(); // Works directly
let raw = id.into_inner(); // Extracts the raw uuid::Uuid

How do I store this in a Database?

  • Postgres/MySQL: Store it as a TEXT or VARCHAR column to keep the prefix visible.
  • Performance critical: You can store it as UUID (binary) by calling .into_inner() before inserting, but you lose the prefix in the DB.

License

MIT. Use it freely.

Dependencies

~0.2–2.8MB
~37K SLoC