延迟赋值主要有两点:

1.一个参数可能或可能没被赋值．

2.一个参数在一个函数中每次使用时可能被赋值．

如下面的这种情况：

复制代码 代码如下:

int Add(int x, int y)

{

return (2 + 1) + (1);

}

使用Func<T>，我们轻松实现，看代码：

复制代码 代码如下:

/// <summary>

/// LazyExpression

/// </summary>

/// <typeparam name="T">T</typeparam>

public class LazyExpression<T>

{

Func<T> thunk;

public LazyExpression(Func<T> Thunk)

{

thunk = Thunk;

}

public T Evaluate()

{

return thunk();

}

}

/// <summary>

/// LazyBoolExpression

/// </summary>

public static class LazyBoolExpression

{

public static bool And(LazyExpression<bool> LHS, LazyExpression<bool> RHS)

{

return LHS.Evaluate() && RHS.Evaluate();

}

public static bool Or(LazyExpression<bool> LHS, LazyExpression<bool> RHS)

{

return LHS.Evaluate() == true ? true : RHS.Evaluate();

}

}

/// <summary>

/// LazyMemoizedExpression

/// </summary>

/// <typeparam name="T"></typeparam>

public class LazyMemoizedExpression<T>

{

bool thunked;

T value;

Func<T> thunk;

public LazyMemoizedExpression(Func<T> Thunk)

{

thunked = false;

thunk = Thunk;

}

public T Evaluate()

{

if (!thunked)

{

value = thunk();

thunked = true;

}

return value;

}

}

LazyExpression<T>类实现了基本的延迟赋值，LazyMemoizedExpression<T>类实现了一次赋值，多次使用．

LazyBoolExpression实现逻辑表达式．

看UnitTest，一切就明白了

复制代码 代码如下:

///<summary>

///Laziestheexpressiontest.

///</summary>

[TestCase]

publicvoidLazyExpressionTest()

{

varlme1=newLazyExpression<int>(()=>2+1);

varlme2=newLazyExpression<int>(()=>1);

Assert.AreEqual(4,Add(lme1,lme2));

}

///<summary>

///Addsthespecifiedx.

///</summary>

///<paramname="x">Thex.</param>

///<paramname="y">They.</param>

///<returns>result</returns>

privateintAdd(LazyExpression<int>x,LazyExpression<int>y)

{

returnx.Evaluate()+y.Evaluate();

}

///<summary>

///Laziestheexpressionwithlogic.

///</summary>

[TestCase]

publicvoidLazyExpressionWithLogic()

{

varexp1=newLazyExpression<bool>(()=>true);

varexp2=newLazyExpression<bool>(()=>true||false);

if(LazyBoolExpression.And(exp1,exp2))

{

Console.WriteLine("lazyand");

}

if(LazyBoolExpression.Or(exp1,exp2))

{

Console.WriteLine("lazyor");

}

}

///<summary>

///Laziesthememoizedexpressiontest.

///</summary>

[TestCase]

publicvoidLazyMemoizedExpressionTest()

{

varlme1=newLazyMemoizedExpression<int>(()=>GetIntResult());

Assert.AreEqual(943,lme1.Evaluate());

Assert.AreEqual(943,lme1.Evaluate());

//output:

//1passed,0failed,0skipped,took2.80seconds(NUnit2.5).

}

///<summary>

///Comparestolazyexpressiontest.

///</summary>

[TestCase]

publicvoidCompareToLazyExpressionTest()

{

varlme1=newLazyExpression<int>(()=>GetIntResult());

Assert.AreEqual(943,lme1.Evaluate());

Assert.AreEqual(943,lme1.Evaluate());

//output:

//1passed,0failed,0skipped,took4.80seconds(NUnit2.5).

}

///<summary>

///Getstheintresult.

///</summary>

///<returns></returns>

privateintGetIntResult()

{

//currentthreadsleeptwosecond.

System.Threading.Thread.Sleep(2000);

return943;

}