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use std::marker::PhantomData;
use std::rc::Rc;
use crate::di_container::blocking::IDIContainer;
use crate::errors::injectable::InjectableError;
use crate::interfaces::injectable::Injectable;
use crate::ptr::{SingletonPtr, TransientPtr};
#[derive(strum_macros::Display, Debug)]
pub enum Providable<DIContainerType>
where
DIContainerType: IDIContainer,
{
Transient(TransientPtr<dyn Injectable<DIContainerType>>),
Singleton(SingletonPtr<dyn Injectable<DIContainerType>>),
#[cfg(feature = "factory")]
Factory(crate::ptr::FactoryPtr<dyn crate::interfaces::any_factory::AnyFactory>),
#[cfg(feature = "factory")]
DefaultFactory(
crate::ptr::FactoryPtr<dyn crate::interfaces::any_factory::AnyFactory>,
),
}
#[cfg_attr(test, mockall::automock, allow(dead_code))]
pub trait IProvider<DIContainerType>
where
DIContainerType: IDIContainer,
{
fn provide(
&self,
di_container: &Rc<DIContainerType>,
dependency_history: Vec<&'static str>,
) -> Result<Providable<DIContainerType>, InjectableError>;
}
pub struct TransientTypeProvider<InjectableType, DIContainerType>
where
InjectableType: Injectable<DIContainerType>,
DIContainerType: IDIContainer,
{
injectable_phantom: PhantomData<InjectableType>,
di_container_phantom: PhantomData<DIContainerType>,
}
impl<InjectableType, DIContainerType>
TransientTypeProvider<InjectableType, DIContainerType>
where
InjectableType: Injectable<DIContainerType>,
DIContainerType: IDIContainer,
{
pub fn new() -> Self
{
Self {
injectable_phantom: PhantomData,
di_container_phantom: PhantomData,
}
}
}
impl<InjectableType, DIContainerType> IProvider<DIContainerType>
for TransientTypeProvider<InjectableType, DIContainerType>
where
InjectableType: Injectable<DIContainerType>,
DIContainerType: IDIContainer,
{
fn provide(
&self,
di_container: &Rc<DIContainerType>,
dependency_history: Vec<&'static str>,
) -> Result<Providable<DIContainerType>, InjectableError>
{
Ok(Providable::Transient(InjectableType::resolve(
di_container,
dependency_history,
)?))
}
}
pub struct SingletonProvider<InjectableType, DIContainerType>
where
InjectableType: Injectable<DIContainerType>,
DIContainerType: IDIContainer,
{
singleton: SingletonPtr<InjectableType>,
di_container_phantom: PhantomData<DIContainerType>,
}
impl<InjectableType, DIContainerType> SingletonProvider<InjectableType, DIContainerType>
where
InjectableType: Injectable<DIContainerType>,
DIContainerType: IDIContainer,
{
pub fn new(singleton: SingletonPtr<InjectableType>) -> Self
{
Self {
singleton,
di_container_phantom: PhantomData,
}
}
}
impl<InjectableType, DIContainerType> IProvider<DIContainerType>
for SingletonProvider<InjectableType, DIContainerType>
where
InjectableType: Injectable<DIContainerType>,
DIContainerType: IDIContainer,
{
fn provide(
&self,
_di_container: &Rc<DIContainerType>,
_dependency_history: Vec<&'static str>,
) -> Result<Providable<DIContainerType>, InjectableError>
{
Ok(Providable::Singleton(self.singleton.clone()))
}
}
#[cfg(feature = "factory")]
pub struct FactoryProvider
{
factory: crate::ptr::FactoryPtr<dyn crate::interfaces::any_factory::AnyFactory>,
is_default_factory: bool,
}
#[cfg(feature = "factory")]
impl FactoryProvider
{
pub fn new(
factory: crate::ptr::FactoryPtr<dyn crate::interfaces::any_factory::AnyFactory>,
is_default_factory: bool,
) -> Self
{
Self {
factory,
is_default_factory,
}
}
}
#[cfg(feature = "factory")]
impl<DIContainerType> IProvider<DIContainerType> for FactoryProvider
where
DIContainerType: IDIContainer,
{
fn provide(
&self,
_di_container: &Rc<DIContainerType>,
_dependency_history: Vec<&'static str>,
) -> Result<Providable<DIContainerType>, InjectableError>
{
Ok(if self.is_default_factory {
Providable::DefaultFactory(self.factory.clone())
} else {
Providable::Factory(self.factory.clone())
})
}
}
#[cfg(test)]
mod tests
{
use std::error::Error;
use super::*;
use crate::test_utils::{mocks, subjects};
#[test]
fn transient_type_provider_works() -> Result<(), Box<dyn Error>>
{
let transient_type_provider = TransientTypeProvider::<
subjects::UserManager,
mocks::blocking_di_container::MockDIContainer,
>::new();
let di_container = mocks::blocking_di_container::MockDIContainer::new();
assert!(
matches!(
transient_type_provider.provide(&Rc::new(di_container), vec![])?,
Providable::Transient(_)
),
"The provided type is not transient"
);
Ok(())
}
#[test]
fn singleton_provider_works() -> Result<(), Box<dyn Error>>
{
let singleton_provider =
SingletonProvider::<
subjects::UserManager,
mocks::blocking_di_container::MockDIContainer,
>::new(SingletonPtr::new(subjects::UserManager {}));
let di_container = mocks::blocking_di_container::MockDIContainer::new();
assert!(
matches!(
singleton_provider.provide(&Rc::new(di_container), vec![])?,
Providable::Singleton(_)
),
"The provided type is not a singleton"
);
Ok(())
}
#[test]
#[cfg(feature = "factory")]
fn factory_provider_works() -> Result<(), Box<dyn Error>>
{
use crate::interfaces::any_factory::AnyFactory;
use crate::ptr::FactoryPtr;
#[derive(Debug)]
struct FooFactory;
impl AnyFactory for FooFactory {}
let factory_provider = FactoryProvider::new(FactoryPtr::new(FooFactory), false);
let default_factory_provider =
FactoryProvider::new(FactoryPtr::new(FooFactory), true);
let di_container = Rc::new(mocks::blocking_di_container::MockDIContainer::new());
assert!(
matches!(
factory_provider.provide(&di_container, vec![])?,
Providable::Factory(_)
),
"The provided type is not a factory"
);
assert!(
matches!(
default_factory_provider.provide(&di_container, vec![])?,
Providable::DefaultFactory(_)
),
"The provided type is not a default factory"
);
Ok(())
}
}
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