IComparable<T>.CompareTo(T) Método
Definición
Importante
Parte de la información hace referencia a la versión preliminar del producto, que puede haberse modificado sustancialmente antes de lanzar la versión definitiva. Microsoft no otorga ninguna garantía, explícita o implícita, con respecto a la información proporcionada aquí.
Compara la instancia actual con otro objeto del mismo tipo y devuelve un entero que indica si la posición de la instancia actual es anterior, posterior o igual que la del otro objeto en el criterio de ordenación.
public:
int CompareTo(T other);public int CompareTo (T other);public int CompareTo (T? other);abstract member CompareTo : 'T -> intPublic Function CompareTo (other As T) As IntegerParámetros
- other
- T
Objeto que se va a comparar con esta instancia.
Devoluciones
Un valor que indica el orden relativo de los objetos que se están comparando. El valor devuelto tiene los siguientes significados:
| Valor | Significado |
|---|---|
| Menor que cero | Esta instancia es anterior a other en el criterio de ordenación.
|
| Cero | Esta instancia se produce en la misma posición del criterio de ordenación que other.
|
| Mayor que cero | Esta instancia sigue a other en el criterio de ordenación.
|
Ejemplos
En el ejemplo de código siguiente se muestra la implementación de IComparable<T> para un objeto simple Temperature . En el ejemplo se crea una SortedList<TKey,TValue> colección de cadenas con Temperature claves de objeto y se agregan varios pares de temperaturas y cadenas a la lista fuera de secuencia. En la llamada al Add método , la SortedList<TKey,TValue> colección usa la IComparable<T> implementación para ordenar las entradas de lista, que a continuación se muestran en orden de aumento de temperatura.
#using <System.dll>
using namespace System;
using namespace System::Collections::Generic;
public ref class Temperature: public IComparable<Temperature^> {
protected:
// The underlying temperature value.
Double m_value;
public:
// Implement the generic CompareTo method with the Temperature class
// as the Type parameter.
virtual Int32 CompareTo( Temperature^ other ) {
// If other is not a valid object reference, this instance
// is greater.
if (other == nullptr) return 1;
// The temperature comparison depends on the comparison of the
// the underlying Double values.
return m_value.CompareTo( other->m_value );
}
// Define the is greater than operator.
bool operator>= (Temperature^ other)
{
return CompareTo(other) >= 0;
}
// Define the is less than operator.
bool operator< (Temperature^ other)
{
return CompareTo(other) < 0;
}
// Define the is greater than or equal to operator.
bool operator> (Temperature^ other)
{
return CompareTo(other) > 0;
}
// Define the is less than or equal to operator.
bool operator<= (Temperature^ other)
{
return CompareTo(other) <= 0;
}
property Double Celsius {
Double get() {
return m_value + 273.15;
}
}
property Double Kelvin {
Double get() {
return m_value;
}
void set( Double value ) {
if (value < 0)
throw gcnew ArgumentException("Temperature cannot be less than absolute zero.");
else
m_value = value;
}
}
Temperature(Double kelvins) {
this->Kelvin = kelvins;
}
};
int main() {
SortedList<Temperature^, String^>^ temps =
gcnew SortedList<Temperature^, String^>();
// Add entries to the sorted list, out of order.
temps->Add(gcnew Temperature(2017.15), "Boiling point of Lead");
temps->Add(gcnew Temperature(0), "Absolute zero");
temps->Add(gcnew Temperature(273.15), "Freezing point of water");
temps->Add(gcnew Temperature(5100.15), "Boiling point of Carbon");
temps->Add(gcnew Temperature(373.15), "Boiling point of water");
temps->Add(gcnew Temperature(600.65), "Melting point of Lead");
for each( KeyValuePair<Temperature^, String^>^ kvp in temps )
{
Console::WriteLine("{0} is {1} degrees Celsius.", kvp->Value, kvp->Key->Celsius);
}
}
/* The example displays the following output:
Absolute zero is 273.15 degrees Celsius.
Freezing point of water is 546.3 degrees Celsius.
Boiling point of water is 646.3 degrees Celsius.
Melting point of Lead is 873.8 degrees Celsius.
Boiling point of Lead is 2290.3 degrees Celsius.
Boiling point of Carbon is 5373.3 degrees Celsius.
*/
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) > 0;
}
// Define the is less than operator.
public static bool operator < (Temperature operand1, Temperature operand2)
{
return operand1.CompareTo(operand2) < 0;
}
// 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.
*/
open System
open System.Collections.Generic
type Temperature(kelvins: double) =
// The underlying temperature value.
let mutable kelvins = kelvins
do
if kelvins < 0. then
invalidArg (nameof kelvins) "Temperature cannot be less than absolute zero."
// Define the is greater than operator.
static member op_GreaterThan (operand1: Temperature, operand2: Temperature) =
operand1.CompareTo operand2 > 0
// Define the is less than operator.
static member op_LessThan (operand1: Temperature, operand2: Temperature) =
operand1.CompareTo operand2 < 0
// Define the is greater than or equal to operator.
static member op_GreaterThanOrEqual (operand1: Temperature, operand2: Temperature) =
operand1.CompareTo operand2 >= 0
// Define the is less than or equal to operator.
static member op_LessThanOrEqual (operand1: Temperature, operand2: Temperature) =
operand1.CompareTo operand2 <= 0
member _.Celsius =
kelvins - 273.15
member _.Kelvin
with get () =
kelvins
and set (value) =
if value < 0. then
invalidArg (nameof value) "Temperature cannot be less than absolute zero."
else
kelvins <- value
// Implement the generic CompareTo method with the Temperature
// class as the Type parameter.
member _.CompareTo(other: Temperature) =
// If other is not a valid object reference, this instance is greater.
match box other with
| null -> 1
| _ ->
// The temperature comparison depends on the comparison of
// the underlying Double values.
kelvins.CompareTo(other.Kelvin)
interface IComparable<Temperature> with
member this.CompareTo(other) = this.CompareTo other
let temps = SortedList()
// Add entries to the sorted list, out of order.
temps.Add(Temperature 2017.15, "Boiling point of Lead")
temps.Add(Temperature 0., "Absolute zero")
temps.Add(Temperature 273.15, "Freezing point of water")
temps.Add(Temperature 5100.15, "Boiling point of Carbon")
temps.Add(Temperature 373.15, "Boiling point of water")
temps.Add(Temperature 600.65, "Melting point of Lead")
for kvp in temps do
printfn $"{kvp.Value} is {kvp.Key.Celsius} degrees 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.
Imports System.Collections.Generic
Public Class Temperature
Implements IComparable(Of Temperature)
' Implement the generic CompareTo method with the Temperature class
' as the type parameter.
'
Public Overloads Function CompareTo(ByVal other As Temperature) As Integer _
Implements IComparable(Of Temperature).CompareTo
' If other is not a valid object reference, this instance is greater.
If other Is Nothing Then Return 1
' The temperature comparison depends on the comparison of the
' the underlying Double values.
Return m_value.CompareTo(other.m_value)
End Function
' Define the is greater than operator.
Public Shared Operator > (operand1 As Temperature, operand2 As Temperature) As Boolean
Return operand1.CompareTo(operand2) > 0
End Operator
' Define the is less than operator.
Public Shared Operator < (operand1 As Temperature, operand2 As Temperature) As Boolean
Return operand1.CompareTo(operand2) < 0
End Operator
' Define the is greater than or equal to operator.
Public Shared Operator >= (operand1 As Temperature, operand2 As Temperature) As Boolean
Return operand1.CompareTo(operand2) >= 0
End Operator
' Define the is less than operator.
Public Shared Operator <= (operand1 As Temperature, operand2 As Temperature) As Boolean
Return operand1.CompareTo(operand2) <= 0
End Operator
' The underlying temperature value.
Protected m_value As Double = 0.0
Public ReadOnly Property Celsius() As Double
Get
Return m_value - 273.15
End Get
End Property
Public Property Kelvin() As Double
Get
Return m_value
End Get
Set(ByVal Value As Double)
If value < 0.0 Then
Throw New ArgumentException("Temperature cannot be less than absolute zero.")
Else
m_value = Value
End If
End Set
End Property
Public Sub New(ByVal kelvins As Double)
Me.Kelvin = kelvins
End Sub
End Class
Public Class Example
Public Shared Sub Main()
Dim temps As New SortedList(Of 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")
For Each kvp As KeyValuePair(Of Temperature, String) In temps
Console.WriteLine("{0} is {1} degrees Celsius.", kvp.Value, kvp.Key.Celsius)
Next
End Sub
End Class
' The 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.
'
Comentarios
CompareTo proporciona un método de comparación fuertemente tipado para ordenar miembros de un objeto de colección genérico. Por este motivo, normalmente no se llama directamente desde el código de desarrollador. En su lugar, se llama automáticamente mediante métodos como List<T>.Sort() y Add.
Este método es solo una definición y debe implementarse mediante una clase o un tipo de valor específicos para tener efecto. El significado de las comparaciones especificadas en la sección Valores devueltos ("precede", "se produce en la misma posición que" y "sigue") depende de la implementación concreta.
Por definición, cualquier objeto compara mayor que nully dos referencias nulas se comparan entre sí.
Notas a los implementadores
Para los objetos A, B y C, debe cumplirse lo siguiente:
Se requiere A.CompareTo(A) para devolver cero.
Si A.CompareTo(B) devuelve cero, se requiere B.CompareTo(A) para devolver cero.
Si A.CompareTo(B) devuelve cero y B.CompareTo(C) devuelve cero, se requiere A.CompareTo(C) para devolver cero.
Si A.CompareTo(B) devuelve un valor distinto de cero, se requiere B.CompareTo(A) para devolver un valor del signo opuesto.
Si A.CompareTo(B) devuelve un valor x que no es igual a cero y B.CompareTo(C) devuelve un valor y del mismo signo que x, se requiere A.CompareTo(C) para devolver un valor del mismo signo x que y y.
Notas a los autores de las llamadas
Use el CompareTo(T) método para determinar el orden de las instancias de una clase.