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#![cfg_attr(doc_cfg, feature(doc_cfg))]
#![feature(proc_macro_hygiene)]
#![deny(clippy::all)]
#![deny(clippy::pedantic)]
#![allow(clippy::module_name_repetitions)]
#![deny(missing_docs)]
//! Macros for the [Syrette](https://crates.io/crates/syrette) crate.
use feature_macros::feature_specific;
use proc_macro::TokenStream;
use quote::quote;
use syn::{parse, parse_macro_input};
mod declare_interface_args;
mod injectable;
mod libs;
mod macro_flag;
mod util;
#[feature_specific("factory")]
mod factory;
#[feature_specific("factory")]
mod fn_trait;
use crate::declare_interface_args::DeclareInterfaceArgs;
use crate::injectable::implementation::InjectableImpl;
use crate::injectable::macro_args::InjectableMacroArgs;
use crate::libs::intertrait_macros::gen_caster::generate_caster;
/// Makes a struct injectable. Thereby usable with [`DIContainer`] or
/// [`AsyncDIContainer`].
///
/// # Arguments
/// * (Optional) A interface trait the struct implements.
/// * (Zero or more) Flags. Like `a = true, b = false`
///
/// # Flags
/// - `no_doc_hidden` - Don't hide the impl of the [`Injectable`] trait from
/// documentation.
/// - `async` - Mark as async.
///
/// # Panics
/// If the attributed item is not a impl.
///
/// # Important
/// If the interface trait argument is excluded, you should either manually
/// declare the interface with the [`declare_interface!`] macro or use
/// the [`di_container_bind`] macro to create a DI container binding.
///
/// # Attributes
/// Attributes specific to impls with this attribute macro.
///
/// ### Named
/// Used inside the `new` method before a dependency argument. Declares the name of the
/// dependency. Should be given the name quoted inside parenthesis.
///
/// The [`macro@named`] ghost attribute macro can be used for intellisense and
/// autocompletion for this attribute.
///
/// For example:
/// ```
/// # use syrette::ptr::TransientPtr;
/// # use syrette::injectable;
/// #
/// # trait IArmor {}
/// #
/// # trait IKnight {}
/// #
/// # struct Knight
/// # {
/// # tough_armor: TransientPtr<dyn IArmor>,
/// # light_armor: TransientPtr<dyn IArmor>,
/// # }
/// #
/// #[injectable(IKnight)]
/// impl Knight
/// {
/// pub fn new(
/// #[named("tough")] tough_armor: TransientPtr<dyn IArmor>,
/// #[named("light")] light_armor: TransientPtr<dyn IArmor>,
/// ) -> Self
/// {
/// Self {
/// tough_armor,
/// light_armor,
/// }
/// }
/// }
/// #
/// # impl IKnight for Knight {}
/// ```
///
/// # Example
/// ```
/// # use syrette::injectable;
/// #
/// # struct PasswordManager {}
/// #
/// #[injectable]
/// impl PasswordManager
/// {
/// pub fn new() -> Self
/// {
/// Self {}
/// }
/// }
/// ```
///
/// [`DIContainer`]: https://docs.rs/syrette/latest/syrette/di_container/struct.DIContainer.html
/// [`AsyncDIContainer`]: https://docs.rs/syrette/latest/syrette/async_di_container/struct.AsyncDIContainer.html
/// [`Injectable`]: https://docs.rs/syrette/latest/syrette/interfaces/injectable/trait.Injectable.html
/// [`di_container_bind`]: https://docs.rs/syrette/latest/syrette/macro.di_container_bind.html
#[proc_macro_attribute]
pub fn injectable(args_stream: TokenStream, impl_stream: TokenStream) -> TokenStream
{
let InjectableMacroArgs { interface, flags } = parse_macro_input!(args_stream);
let no_doc_hidden = flags
.iter()
.find(|flag| flag.flag.to_string().as_str() == "no_doc_hidden")
.map_or(false, |flag| flag.is_on.value);
let is_async = flags
.iter()
.find(|flag| flag.flag.to_string().as_str() == "async")
.map_or(false, |flag| flag.is_on.value);
let injectable_impl: InjectableImpl = parse(impl_stream).unwrap();
let expanded_injectable_impl = injectable_impl.expand(no_doc_hidden, is_async);
let maybe_decl_interface = if interface.is_some() {
let self_type = &injectable_impl.self_type;
if is_async {
quote! {
syrette::declare_interface!(#self_type -> #interface, async = true);
}
} else {
quote! {
syrette::declare_interface!(#self_type -> #interface);
}
}
} else {
quote! {}
};
quote! {
#expanded_injectable_impl
#maybe_decl_interface
}
.into()
}
/// Makes a type alias usable as a factory interface.
///
/// The return type is automatically put inside of a [`TransientPtr`].
///
/// # Arguments
/// * (Zero or more) Flags. Like `a = true, b = false`
///
/// # Flags
/// - `threadsafe` - Mark as threadsafe.
/// - `async` - Mark as async. Infers the `threadsafe` flag. The return type is
/// automatically put inside of a pinned boxed future.
///
/// # Panics
/// If the attributed item is not a type alias.
///
/// # Examples
/// ```
/// # use syrette::factory;
/// #
/// # trait IConfigurator {}
/// #
/// # struct Configurator {}
/// #
/// # impl Configurator
/// # {
/// # fn new() -> Self
/// # {
/// # Self {}
/// # }
/// # }
/// #
/// # impl IConfigurator for Configurator {}
/// #
/// #[factory]
/// type IConfiguratorFactory = dyn Fn(Vec<String>) -> dyn IConfigurator;
/// ```
///
/// [`TransientPtr`]: https://docs.rs/syrette/latest/syrette/ptr/type.TransientPtr.html
#[feature_specific("factory")]
#[proc_macro_attribute]
pub fn factory(args_stream: TokenStream, type_alias_stream: TokenStream) -> TokenStream
{
use quote::ToTokens;
use syn::{parse_str, Type};
use crate::factory::build_declare_interfaces::build_declare_factory_interfaces;
use crate::factory::macro_args::FactoryMacroArgs;
use crate::factory::type_alias::FactoryTypeAlias;
let FactoryMacroArgs { flags } = parse(args_stream).unwrap();
let mut is_threadsafe = flags
.iter()
.find(|flag| flag.flag.to_string().as_str() == "threadsafe")
.map_or(false, |flag| flag.is_on.value);
let is_async = flags
.iter()
.find(|flag| flag.flag.to_string().as_str() == "async")
.map_or(false, |flag| flag.is_on.value);
if is_async {
is_threadsafe = true;
}
let FactoryTypeAlias {
mut type_alias,
mut factory_interface,
arg_types: _,
return_type: _,
} = parse(type_alias_stream).unwrap();
let output = factory_interface.output.clone();
factory_interface.output = parse(
if is_async {
quote! {
syrette::future::BoxFuture<'static, syrette::ptr::TransientPtr<#output>>
}
} else {
quote! {
syrette::ptr::TransientPtr<#output>
}
}
.into(),
)
.unwrap();
if is_threadsafe {
factory_interface.add_trait_bound(parse_str("Send").unwrap());
factory_interface.add_trait_bound(parse_str("Sync").unwrap());
}
type_alias.ty = Box::new(Type::Verbatim(factory_interface.to_token_stream()));
let decl_interfaces =
build_declare_factory_interfaces(&factory_interface, is_threadsafe);
quote! {
#type_alias
#decl_interfaces
}
.into()
}
/// Shortcut for declaring a default factory.
///
/// A default factory is a factory that doesn't take any arguments.
///
/// Another way to accomplish what this macro does would be by using
/// the [`macro@factory`] macro.
///
/// # Arguments
/// - Interface trait
/// * (Zero or more) Flags. Like `a = true, b = false`
///
/// # Flags
/// - `threadsafe` - Mark as threadsafe.
/// - `async` - Mark as async. Infers the `threadsafe` flag.
///
/// # Panics
/// If the provided arguments are invalid.
///
/// # Examples
/// ```
/// # use syrette::declare_default_factory;
/// #
/// trait IParser
/// {
/// // Methods and etc here...
/// }
///
/// declare_default_factory!(dyn IParser);
/// ```
#[proc_macro]
#[feature_specific("factory")]
pub fn declare_default_factory(args_stream: TokenStream) -> TokenStream
{
use syn::parse_str;
use crate::factory::build_declare_interfaces::build_declare_factory_interfaces;
use crate::factory::declare_default_args::DeclareDefaultFactoryMacroArgs;
use crate::fn_trait::FnTrait;
let DeclareDefaultFactoryMacroArgs { interface, flags } = parse(args_stream).unwrap();
let mut is_threadsafe = flags
.iter()
.find(|flag| flag.flag.to_string().as_str() == "threadsafe")
.map_or(false, |flag| flag.is_on.value);
let is_async = flags
.iter()
.find(|flag| flag.flag.to_string().as_str() == "async")
.map_or(false, |flag| flag.is_on.value);
if is_async {
is_threadsafe = true;
}
let mut factory_interface: FnTrait = parse(
if is_async {
quote! {
dyn Fn() -> syrette::future::BoxFuture<
'static,
syrette::ptr::TransientPtr<#interface>
>
}
} else {
quote! {
dyn Fn() -> syrette::ptr::TransientPtr<#interface>
}
}
.into(),
)
.unwrap();
if is_threadsafe {
factory_interface.add_trait_bound(parse_str("Send").unwrap());
factory_interface.add_trait_bound(parse_str("Sync").unwrap());
}
build_declare_factory_interfaces(&factory_interface, is_threadsafe).into()
}
/// Declares the interface trait of a implementation.
///
/// # Arguments
/// {Implementation} -> {Interface}
/// * (Zero or more) Flags. Like `a = true, b = false`
///
/// # Flags
/// - `async` - Mark as async.
///
/// # Examples
/// ```
/// # use syrette::declare_interface;
/// #
/// # trait INinja {}
/// #
/// # struct Ninja {}
/// #
/// # impl INinja for Ninja {}
/// #
/// declare_interface!(Ninja -> INinja);
/// ```
#[proc_macro]
pub fn declare_interface(input: TokenStream) -> TokenStream
{
let DeclareInterfaceArgs {
implementation,
interface,
flags,
} = parse_macro_input!(input);
let opt_async_flag = flags
.iter()
.find(|flag| flag.flag.to_string().as_str() == "async");
let is_async =
opt_async_flag.map_or_else(|| false, |async_flag| async_flag.is_on.value);
generate_caster(&implementation, &interface, is_async).into()
}
/// Declares the name of a dependency.
///
/// This macro attribute doesn't actually do anything. It only exists for the
/// convenience of having intellisense and autocompletion.
/// You might as well just use `named` if you don't care about that.
///
/// Only means something inside a `new` method inside a impl with
/// the [`macro@injectable`] macro attribute.
///
/// # Examples
/// ```
/// # use syrette::ptr::TransientPtr;
/// # use syrette::injectable;
/// #
/// # trait INinja {}
/// # trait IWeapon {}
/// #
/// # struct Ninja
/// # {
/// # strong_weapon: TransientPtr<dyn IWeapon>,
/// # weak_weapon: TransientPtr<dyn IWeapon>,
/// # }
/// #
/// #[injectable(INinja)]
/// impl Ninja
/// {
/// pub fn new(
/// #[syrette::named("strong")] strong_weapon: TransientPtr<dyn IWeapon>,
/// #[syrette::named("weak")] weak_weapon: TransientPtr<dyn IWeapon>,
/// ) -> Self
/// {
/// Self {
/// strong_weapon,
/// weak_weapon,
/// }
/// }
/// }
/// #
/// # impl INinja for Ninja {}
/// ```
#[proc_macro_attribute]
pub fn named(_: TokenStream, _: TokenStream) -> TokenStream
{
TokenStream::new()
}
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