How to use:
Cargo.toml:
waiter_di = "1.6.5"lib.rs or any other file, that uses library:
use waiter_di::*;See examples/1_get_started.rs for minimal example of usage.
See examples/2_modules.rs for example with modules and constructors.
See examples/3_inject_options_list.rs for the demo of all available injection options.
Annotate structure with #[component]
#[component]
struct Comp {}Annotate impl blocks with #[provides]
#[provides]
impl Interface for Comp {}Create a container:
fn main() {
let mut container = Container::<profiles::Default>::new();
}Get dependency ref:
fn main() {
let comp = Provider::<dyn Interface>::get(&mut container);
}For Rc:
#[component]
struct Dependency;
#[component]
struct Comp {
dependency_rc: Rc<Dependency>
}
fn main() {
let mut container = Container::<profiles::Default>::new();
Provider::<Comp>::get(&mut container);
}to use Arc instead of Rc you need to add async feature in cargo:
waiter_di = { version = "...", features = [ "async" ] }Also, you can use waiter_di::Wrc type that will be compiled to Rc or Arc depending on async feature.
To create new struct instead of getting reference:
#[component]
struct Comp {
dependency: Dependency,
dependency_box: Box<Dependency>
}
fn main() {
let mut container = Container::<profiles::Default>::new();
Provider::<Comp>::create(&mut container);
Provider::<Comp>::create_boxed(&mut container);
}It uses config crate under the hood, for example it tries to find float_prop
in args as --float_prop <value>, if not found it tries to find it in environment variables,
after that tries config/{profile}.toml, after that config/default.toml
#[derive(Debug, Deserialize)]
struct ConfigObject {
i32_prop: i32
}
#[component]
struct Comp {
config: Config,
#[prop("int")] int_prop: usize,
#[prop("int")] int_prop_opt: Option<usize>,
#[prop("int" = 42)] int_prop_with_default_value: usize,
float_prop: f32,
#[prop] config_object: ConfigObject
}Use Deferred type:
#[component]
struct Comp {
dependency_def: Deferred<Dependency>,
dependency_def_rc: Deferred<Rc<Dependency>>,
dependency_def_box: Deferred<Box<Dependency>>
}You can use predefined profiles from `waiter_di::profile" or create custom:
struct CustomProfile;
#[provides(profiles::Dev, CustomProfile)]
impl Interface for Comp {}
fn main() {
let mut container = Container::<profiles::Default>::new();
let mut container = Container::<profiles::Dev>::new();
let mut container = Container::<CustomProfile>::new();
}Just define property named profile as --profile <profile> arg, profile env variable or
profile property in config/default.toml and use inject! macro:
fn main() {
let comp = inject!(Comp: profiles::Default, profiles::Dev);
}inject! macro can't be used for several components, so it's recommended to use it with modules:
#[module]
struct SomeModule {
component: Component
}
#[module]
struct RootModule {
some_module: SomeModule
}
fn main() {
let root_module = inject!(RootModule: profiles::Default, profiles::Dev);
}In this case #[module] is just a synonym for #[component]
If you can't use #[component] annotation, use factory function instead:
#[provides]
fn create_dependency(bool_prop: bool) -> Dependency {
Dependency { prop: bool_prop }
}To use it like a constructor, use it with #[component] on impl block:
struct Comp();
#[component]
impl Comp {
#[provides]
fn new() -> Self {
Self()
}
}Deferred args in factory functions is unsupported. In the rest it can accept
the same arg types as #[component].
External types isn't supported for factory functions:
#[provides] // won't compile
fn create_external_type_dependency() -> HashMap<i32, i32> {
HashMap::new()
}So you need to create crate-local wrapper:
struct Wrapper(HashMap<i32, i32>);
#[provides]
fn create_external_type_dependency() -> Wrapper {
Wrapper(HashMap::new())
}For convenience, you can use #[wrapper] attribute to implement Deref automatically:
#[wrapper]
struct HashMap(std::collections::HashMap<i32, i32>);
#[provides]
fn create_external_type_dependency() -> HashMap {
return HashMap(std::collections::HashMap::<i32, i32>::new());
}