3 releases
Uses new Rust 2024
| new 0.2.2 | Apr 13, 2025 |
|---|---|
| 0.2.1 | Apr 13, 2025 |
| 0.2.0 | Apr 13, 2025 |
| 0.1.0 |
|
#443 in Procedural macros
102 downloads per month
Used in concrete-type-rules
21KB
179 lines
concrete-type
A procedural macro library for mapping enum variants to concrete types, enabling type-level programming based on runtime enum values.
Table of Contents
Overview
concrete-type provides procedural macros that create a relationship between enum variants and specific concrete types.
This enables:
- Type-level programming with enums
- Executing code with concrete type knowledge at compile time based on runtime enum values
- Optionally carrying configuration data with enum variants
Installation
Add this to your Cargo.toml:
[dependencies]
concrete-type = "0.2.0"
Features
#[derive(Concrete)]
The Concrete derive macro is designed for enums where each variant maps to a specific concrete type.
- Map enum variants to concrete types with
#[concrete = "path::to::Type"]attribute - Auto-generated macros for type-level dispatch using the snake_case name of the enum
Example:
#[derive(Concrete)]
enum StrategyKind {
#[concrete = "strategies::StrategyA"]
StrategyA,
#[concrete = "strategies::StrategyB"]
StrategyB,
}
// Generated macro is named 'strategy_kind!'
#[derive(ConcreteConfig)]
The ConcreteConfig derive macro is designed for enums where each variant has associated configuration data and maps to a specific concrete type.
- Map enum variants with configuration data to concrete types
- Each variant must have a single tuple field containing the configuration
- Generated methods:
config(): Returns a reference to the configuration data
- Auto-generated macros for type-level dispatch with access to both the concrete type and config data
Example:
#[derive(ConcreteConfig)]
enum ExchangeConfig {
#[concrete = "exchanges::Binance"]
Binance(exchanges::BinanceConfig),
}
// Generated macro is named 'exchange_config!'
Examples
Basic Usage
use concrete_type::Concrete;
#[derive(Concrete, Clone, Copy)]
enum Exchange {
#[concrete = "exchanges::Binance"]
Binance,
#[concrete = "exchanges::Coinbase"]
Coinbase,
}
mod exchanges {
pub struct Binance;
pub struct Coinbase;
impl Binance {
pub fn new() -> Self { Binance }
pub fn name(&self) -> &'static str { "binance" }
}
impl Coinbase {
pub fn new() -> Self { Coinbase }
pub fn name(&self) -> &'static str { "coinbase" }
}
}
// Use the auto-generated 'exchange!' macro to work with concrete types
let exchange = Exchange::Binance;
let name = exchange!(exchange; ExchangeImpl => {
// Here, ExchangeImpl is aliased to the concrete type (exchanges::Binance)
let instance = ExchangeImpl::new();
instance.name()
});
assert_eq!(name, "binance");
Enums with Config Data
use concrete_type::ConcreteConfig;
// Define concrete types and configuration types
mod exchanges {
pub trait ExchangeApi {
type Config;
fn new(config: Self::Config) -> Self;
fn name(&self) -> &'static str;
}
pub struct Binance;
pub struct BinanceConfig {
pub api_key: String,
}
impl ExchangeApi for Binance {
type Config = BinanceConfig;
fn new(_: Self::Config) -> Self { Self }
fn name(&self) -> &'static str { "binance" }
}
}
// Define the enum with concrete type mappings and config data
#[derive(ConcreteConfig)]
enum ExchangeConfig {
#[concrete = "exchanges::Binance"]
Binance(exchanges::BinanceConfig),
}
// Using the auto-generated macro with access to both type and config
let config = ExchangeConfig::Binance(
exchanges::BinanceConfig { api_key: "secret".to_string() }
);
let name = exchange_config!(config; (Exchange, cfg) => {
// Inside this block:
// - Exchange is the concrete type (exchanges::Binance)
// - cfg is the configuration instance (BinanceConfig)
use exchanges::ExchangeApi;
Exchange::new(cfg).name()
});
Contributing
Contributions are welcome! Please feel free to submit a Pull Request.
License
MIT
Dependencies
~0.6–1MB
~21K SLoC