典型工厂化实现 c#典型工厂化实现实例
人气:0工厂接口定义
/// <summary>
/// 工厂接口定义
/// </summary>
/// <remarks>
/// TTarget : abstract product type
/// TSource: concrete product type
/// </remarks>
public interface IFactory
{
#region config and register type mapping
/// <summary>
/// 如果需要同时加载配置文件中定义的映射关系,可以按照SRP的原则定义独立的配置类型。
/// 由该配置类型调用这两个接口为Factory加载配置信息
/// </summary>
IFactory RegisterType<TTarget, TSource>(); // fluent interface
IFactory RegisterType<TTarget, TSource>(string name); // fluent interface
#endregion
#region factory method
TTarget Create<TTarget>();
TTarget Create<TTarget>(string name);
#endregion
}
注册类
public sealed class TypeRegistry
{
readonly string DefaultNmae = Guid.NewGuid().ToString();
IDictionary<Type, IDictionary<string, Type>> registry = new Dictionary<Type, IDictionary<string, Type>>();
public void RegisterType(Type targetType,Type sourceType)
{
RegisterType(targetType, sourceType, DefaultNmae);
}
public void RegisterType(Type targetType, Type sourceType,string name)
{
if (targetType == null) throw new ArgumentNullException("targetType");
if (sourceType == null) throw new ArgumentNullException("sourceType");
if (string.IsNullOrEmpty(name)) throw new ArgumentNullException("name");
IDictionary<string, Type> subDictionary;
if (!registry.TryGetValue(targetType, out subDictionary))
{
subDictionary = new Dictionary<string, Type>();
subDictionary.Add(name, sourceType);
registry.Add(targetType, subDictionary);
}
else
{
if (subDictionary.ContainsKey(name))
throw new DuplicateKeyException(name);
subDictionary.Add(name, sourceType);
}
}
public Type this[Type targetType, string name]
{
get
{
if (targetType == null) throw new ArgumentNullException("targetType");
if (string.IsNullOrEmpty(name)) throw new ArgumentNullException("name");
if (registry.Count() == 0)
return null;
return (registry
.Where(x => x.Key == targetType)).FirstOrDefault().Value
.Where(x => string.Equals(name, x.Key))
.FirstOrDefault().Value;
}
}
public Type this[Type targetType]
{
get { return this[targetType, DefaultNmae]; }
}
}
工厂类
public class Factory : IFactory
{
protected TypeRegistry registry = new TypeRegistry();
#region IFactory Members
public IFactory RegisterType<TTarget, TSource>()
{
registry.RegisterType(typeof(TTarget), typeof(TSource));
return this;
}
public IFactory RegisterType<TTarget, TSource>(string name)
{
registry.RegisterType(typeof(TTarget), typeof(TSource), name);
return this;
}
public TTarget Create<TTarget>()
{
return (TTarget)Activator.CreateInstance(registry[typeof(TTarget)]);
}
public TTarget Create<TTarget>(string name)
{
return (TTarget)Activator.CreateInstance(registry[typeof(TTarget), name]);
}
#endregion
}
调用
[TestMethod]
public void CreateInstance()
{
var factory = new Factory()
.RegisterType<IFruit, Apple>()
.RegisterType<IFruit, Orange>("o")
.RegisterType<IVehicle, Bicycle>()
.RegisterType<IVehicle, Bicycle>("a")
.RegisterType<IVehicle, Train>("b")
.RegisterType<IVehicle, Car>("c");
Assert.IsInstanceOfType(factory.Create<IFruit>(), typeof(Apple));
Assert.IsInstanceOfType(factory.Create<IFruit>("o"), typeof (Orange));
Assert.IsInstanceOfType(factory.Create<IVehicle>(), typeof(Bicycle));
Assert.IsInstanceOfType(factory.Create<IVehicle>("a"), typeof(Bicycle));
Assert.IsInstanceOfType(factory.Create<IVehicle>("b"), typeof(Train));
Assert.IsInstanceOfType(factory.Create<IVehicle>("c"), typeof(Car));
}
其实精髓还是在于注册类的一个类似assembly的功能,通过字典的方式,封装,然后通过泛型来比对实现,或者通过配置文件传参数过来实现出一个新的实例化
里面注意连贯接口,泛型,等操作
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