【转】How to use LINQ methods to compare objects of custom types

原文:http://blogs.msdn.com/csharpfaq/archive/2009/03/25/how-to-use-linq-methods-to-compare-objects-of-custom-types.aspx

译文:http://www.cnblogs.com/tianfan/

LINQ provides a convenient syntax and many useful methods for operating with collections of objects. However, to be correctly processed by LINQ comparison methods such as Distinct or Intersect, a type must satisfy certain requirements.

Let’s take a look at the Distinct method, which returns all distinct objects from a collection.

List<int> numbers = new List<int> { 1, 1, 2, 3 };

var distinctNumbers = numbers.Distinct();

foreach (var number in distinctNumbers)

Console.WriteLine(number);

The output is:

1

2

3

But what if you want to use the Distinct method for a collection of objects of your own type? For example, like this:

class Number

{

public int Digital { get; set; }

public String Textual { get; set; }

}

class Program

{

static void Main(string[] args)

{

List<Number> numbers = new List<Number> {

new Number { Digital = 1, Textual = "one" },

new Number { Digital = 1, Textual = "one" } ,

new Number { Digital = 2, Textual = "two" } ,

new Number { Digital = 3, Textual = "three" } ,

};

var distinctNumbers = numbers.Distinct();

foreach (var number in distinctNumbers)

Console.WriteLine(number.Digital);

}

}

The code compiles, but the output is different:

1

1

2

3

Why did that happen? The answer is in the LINQ implementation details. To be correctly processed by the Distinct method, a type must implement the IEquatable<T> interface and provide its own Equals and GetHashCode methods.

So, the Number class from the previous example should actually look like this:

class Number: IEquatable<Number>

{

public int Digital { get; set; }

public String Textual { get; set; }

public bool Equals(Number other)

{

// Check whether the compared object is null.

if (Object.ReferenceEquals(other, null)) return false;

// Check whether the compared object references the same data.

if (Object.ReferenceEquals(this, other)) return true;

// Check whether the objects’ properties are equal.

return Digital.Equals(other.Digital) &&

Textual.Equals(other.Textual);

}

// If Equals returns true for a pair of objects,

// GetHashCode must return the same value for these objects.

public override int GetHashCode()

{

// Get the hash code for the Textual field if it is not null.

int hashTextual = Textual == null ? 0 : Textual.GetHashCode();

// Get the hash code for the Digital field.

int hashDigital = Digital.GetHashCode();

// Calculate the hash code for the object.

return hashDigital ^ hashTextual;

}

}

But what if you cannot modify the type? What if it was provided by a library and you have no way of implementing the IEquatable<T> interface in this type? The answer is to create your own equality comparer and pass it as a parameter to the Distinct method.

The equality comparer must implement the IEqualityComparer<T> interface and, again, provide GetHashCode and Equals methods.

Here is how the equality comparer for the original Number class might look:

class NumberComparer : IEqualityComparer<Number>

{

public bool Equals(Number x, Number y)

{

if (Object.ReferenceEquals(x, y)) return true;

if (Object.ReferenceEquals(x, null) ||

Object.ReferenceEquals(y, null))

return false;

return x.Digital == y.Digital && x.Textual == y.Textual;

}

public int GetHashCode(Number number)

{

if (Object.ReferenceEquals(number, null)) return 0;

int hashTextual = number.Textual == null

? 0 : number.Textual.GetHashCode();

int hashDigital = number.Digital.GetHashCode();

return hashTextual ^ hashDigital;

}

}

And don’t forget to pass the comparer to the Distinct method:

var distinctNumbers = numbers.Distinct(new NumberComparer());

Of course, these rules don't just apply to the Distinct method. For example, the same is true for the Contains, Except, Intersect, and Union methods. In general, if you see that a LINQ method has an overload that accepts the IEqualityComparer<T> parameter, it probably means that to use it for your own data types you need to either implement IEquatable<T> in your class or create your own equality comparer.

posted @ 2010-04-14 23:03  RicoRui  阅读(479)  评论(0编辑  收藏  举报