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IComparable<T>.CompareTo-Methode: (T)

 

Veröffentlicht: Oktober 2016

Vergleicht die aktuelle Instanz mit einem anderen Objekt vom selben Typ und gibt eine ganze Zahl zurück, die angibt, ob die aktuelle Instanz in der Sortierreihenfolge vor oder nach dem anderen Objekt oder an derselben Position auftritt.

Namespace:   System
Assembly:  mscorlib (in mscorlib.dll)

int CompareTo(
	T other
)

Parameter

other
Type: T

Ein Objekt, das mit dieser Instanz verglichen werden soll.

Rückgabewert

Type: System.Int32

Ein Wert, der die relative Reihenfolge der verglichenen Objekte angibt. Der Rückgabewert hat folgende Bedeutung:

Wert

Bedeutung

Kleiner als 0 (Null)

Diese Instanz befindet sich in der Sortierreihenfolge vor other.

0 (Null)

Diese Instanz tritt in der Sortierreihenfolge an der gleichen Position wie other auf.

Größer als 0 (Null)

Diese Instanz folgt in der Sortierreihenfolge auf other.

CompareTo provides a strongly typed comparison method for ordering members of a generic collection object. Because of this, it is usually not called directly from developer code. Instead, it is called automatically by methods such as List<T>.Sort() and Add.

This method is only a definition and must be implemented by a specific class or value type to have effect. The meaning of the comparisons specified in the Return Values section ("precedes", "occurs in the same position as", and "follows) depends on the particular implementation.

By definition, any object compares greater than null, and two null references compare equal to each other.

Hinweise für Implementierer:

For objects A, B, and C, the following must be true:

A.CompareTo(A) is required to return zero.

If A.CompareTo(B) returns zero, then B.CompareTo(A) is required to return zero.

If A.CompareTo(B) returns zero and B.CompareTo(C) returns zero, then A.CompareTo(C) is required to return zero.

If A.CompareTo(B) returns a value other than zero, then B.CompareTo(A) is required to return a value of the opposite sign.

If A.CompareTo(B) returns a value x that is not equal to zero, and B.CompareTo(C) returns a value y of the same sign as x, then A.CompareTo(C) is required to return a value of the same sign as x and y.

Hinweise für Aufrufer:

Use the M:System.IComparable`1.CompareTo(`0) method to determine the ordering of instances of a class.

The following code example illustrates the implementation of T:System.IComparable for a simple Temperature object. The example creates a T:System.Collections.Generic.SortedList`2 collection of strings with Temperature object keys, and adds several pairs of temperatures and strings to the list out of sequence. In the call to the M:System.Collections.Generic.SortedList`2.Add(`0,`1) method, the T:System.Collections.Generic.SortedList`2 collection uses the T:System.IComparable`1 implementation to sort the list entries, which are then displayed in order of increasing temperature.

using System;
using System.Collections.Generic;

public class Temperature : IComparable<Temperature>
{
    // Implement the generic CompareTo method with the Temperature 
    // class as the Type parameter. 
    //
    public int CompareTo(Temperature other)
    {
        // If other is not a valid object reference, this instance is greater.
        if (other == null) return 1;

        // The temperature comparison depends on the comparison of 
        // the underlying Double values. 
        return m_value.CompareTo(other.m_value);
    }

    // Define the is greater than operator.
    public static bool operator >  (Temperature operand1, Temperature operand2)
    {
       return operand1.CompareTo(operand2) == 1;
    }

    // Define the is less than operator.
    public static bool operator <  (Temperature operand1, Temperature operand2)
    {
       return operand1.CompareTo(operand2) == -1;
    }

    // Define the is greater than or equal to operator.
    public static bool operator >=  (Temperature operand1, Temperature operand2)
    {
       return operand1.CompareTo(operand2) >= 0;
    }

    // Define the is less than or equal to operator.
    public static bool operator <=  (Temperature operand1, Temperature operand2)
    {
       return operand1.CompareTo(operand2) <= 0;
    }

    // The underlying temperature value.
    protected double m_value = 0.0;

    public double Celsius    
    {
        get
        {
            return m_value - 273.15;
        }
    }

    public double Kelvin    
    {
        get
        {
            return m_value;
        }
        set
        {
            if (value < 0.0)
            {
                throw new ArgumentException("Temperature cannot be less than absolute zero.");
            }
            else
            {
                m_value = value;
            }
        }
    }

    public Temperature(double kelvins)
    {
        this.Kelvin = kelvins;
    }
}

public class Example
{
    public static void Main()
    {
        SortedList<Temperature, string> temps = 
            new SortedList<Temperature, string>();

        // Add entries to the sorted list, out of order.
        temps.Add(new Temperature(2017.15), "Boiling point of Lead");
        temps.Add(new Temperature(0), "Absolute zero");
        temps.Add(new Temperature(273.15), "Freezing point of water");
        temps.Add(new Temperature(5100.15), "Boiling point of Carbon");
        temps.Add(new Temperature(373.15), "Boiling point of water");
        temps.Add(new Temperature(600.65), "Melting point of Lead");

        foreach( KeyValuePair<Temperature, string> kvp in temps )
        {
            Console.WriteLine("{0} is {1} degrees Celsius.", kvp.Value, kvp.Key.Celsius);
        }
    }
}
/* This example displays the following output:
      Absolute zero is -273.15 degrees Celsius.
      Freezing point of water is 0 degrees Celsius.
      Boiling point of water is 100 degrees Celsius.
      Melting point of Lead is 327.5 degrees Celsius.
      Boiling point of Lead is 1744 degrees Celsius.
      Boiling point of Carbon is 4827 degrees Celsius.
*/

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