poodinis/test/poodinis/autowiretest.d
2024-02-17 15:08:59 +03:00

193 lines
6.7 KiB
D

/**
* Poodinis Dependency Injection Framework
* Copyright 2014-2024 Mike Bierlee
* This software is licensed under the terms of the MIT license.
* The full terms of the license can be found in the LICENSE file.
*/
import poodinis;
import poodinis.test.testclasses;
import std.exception;
version (unittest) {
// Test autowiring concrete type to existing instance
unittest {
auto container = new shared DependencyContainer();
container.register!ComponentA;
auto componentB = new ComponentB();
container.autowire(componentB);
assert(componentB !is null, "Autowirable dependency failed to autowire");
}
// Test autowiring interface type to existing instance
unittest {
auto container = new shared DependencyContainer();
container.register!(InterfaceA, ComponentC);
auto componentD = new ComponentD();
container.autowire(componentD);
assert(componentD.componentC !is null, "Autowirable dependency failed to autowire");
}
// Test autowiring private members
unittest {
auto container = new shared DependencyContainer();
container.register!(InterfaceA, ComponentC);
auto componentD = new ComponentD();
container.autowire(componentD);
assert(componentD.privateComponentC is componentD.componentC,
"Autowire private dependency failed");
}
// Test autowiring will only happen once
unittest {
auto container = new shared DependencyContainer();
container.register!(InterfaceA, ComponentC).newInstance();
auto componentD = new ComponentD();
container.autowire(componentD);
auto expectedComponent = componentD.componentC;
container.autowire(componentD);
auto actualComponent = componentD.componentC;
assert(expectedComponent is actualComponent,
"Autowiring the second time wired a different instance");
}
// Test autowiring unregistered type
unittest {
auto container = new shared DependencyContainer();
auto componentD = new ComponentD();
assertThrown!(ResolveException)(container.autowire(componentD),
"Autowiring unregistered type should throw ResolveException");
}
// Test autowiring member with non-autowire attribute does not autowire
unittest {
auto container = new shared DependencyContainer();
auto componentE = new ComponentE();
container.autowire(componentE);
assert(componentE.componentC is null,
"Autowiring should not occur for members with attributes other than @Autowire");
}
// Test autowire class with alias declaration
unittest {
auto container = new shared DependencyContainer();
container.register!ComponentA;
auto componentDeclarationCocktail = new ComponentDeclarationCocktail();
container.autowire(componentDeclarationCocktail);
assert(componentDeclarationCocktail.componentA !is null,
"Autowiring class with non-assignable declarations failed");
}
// Test autowire class with qualifier
unittest {
auto container = new shared DependencyContainer();
container.register!(InterfaceA, ComponentC);
container.register!(InterfaceA, ComponentX);
auto componentX = container.resolve!(InterfaceA, ComponentX);
auto monkeyShine = new MonkeyShine();
container.autowire(monkeyShine);
assert(monkeyShine.component is componentX, "Autowiring class with qualifier failed");
}
// Test autowire class with multiple qualifiers
unittest {
auto container = new shared DependencyContainer();
container.register!(InterfaceA, ComponentC);
container.register!(InterfaceA, ComponentX);
auto componentC = container.resolve!(InterfaceA, ComponentC);
auto componentX = container.resolve!(InterfaceA, ComponentX);
auto bootstrapBootstrap = new BootstrapBootstrap();
container.autowire(bootstrapBootstrap);
assert(bootstrapBootstrap.componentX is componentX,
"Autowiring class with multiple qualifiers failed");
assert(bootstrapBootstrap.componentC is componentC,
"Autowiring class with multiple qualifiers failed");
}
// Test getting instance from autowired registration will autowire instance
unittest {
auto container = new shared DependencyContainer();
container.register!ComponentA;
auto registration = new AutowiredRegistration!ComponentB(typeid(ComponentB),
new InstanceFactory(), container).initializeFactoryType().singleInstance();
auto instance = cast(ComponentB) registration.getInstance(
new AutowireInstantiationContext());
assert(instance.componentA !is null);
}
// Test autowiring a dynamic array with all qualified types
unittest {
auto container = new shared DependencyContainer();
container.register!(InterfaceA, ComponentC);
container.register!(InterfaceA, ComponentX);
auto lord = new LordOfTheComponents();
container.autowire(lord);
assert(lord.components.length == 2, "Dynamic array was not autowired");
}
// Test autowiring new instance of singleinstance registration with newInstance UDA
unittest {
auto container = new shared DependencyContainer();
container.register!ComponentA;
auto regularComponentA = container.resolve!ComponentA;
auto charlie = new ComponentCharlie();
container.autowire(charlie);
assert(charlie.componentA !is regularComponentA,
"Autowiring class with AssignNewInstance did not yield a different instance");
}
// Test autowiring members from base class
unittest {
auto container = new shared DependencyContainer();
container.register!ComponentA;
container.register!ComponentB;
container.register!ComponentZ;
auto instance = new ComponentZ();
container.autowire(instance);
assert(instance.componentA !is null);
}
// Test autowiring optional dependencies
unittest {
auto container = new shared DependencyContainer();
auto instance = new OuttaTime();
container.autowire(instance);
assert(instance.interfaceA is null);
assert(instance.componentA is null);
assert(instance.componentCs is null);
}
// Test autowiring class using value injection
unittest {
auto container = new shared DependencyContainer();
container.register!(ValueInjector!int, TestInjector);
container.register!ComponentA;
auto instance = new ValuedClass();
container.autowire(instance);
assert(instance.intValue == 8);
assert(instance.unrelated !is null);
}
}