Convert.ToUInt64 Método

Definición

Espacio de nombres:

System

Ensamblado:

System.Runtime.dll

Convierte un valor especificado en un entero de 64 bits sin signo.

Sobrecargas

ToUInt64(String)	Convierte la representación de cadena especificada de un número en un entero de 64 bits sin signo equivalente.
ToUInt64(UInt16)	Convierte el valor del entero de 16 bits sin signo especificado en un entero de 64 bits sin signo equivalente.
ToUInt64(UInt32)	Convierte el valor del entero de 32 bits sin signo especificado en un entero de 64 bits sin signo equivalente.
ToUInt64(String, IFormatProvider)	Convierte la representación de cadena especificada de un número en un entero de 64 bits sin signo equivalente, usando la información de formato específica de la referencia cultural indicada.
ToUInt64(Object, IFormatProvider)	Convierte el valor del objeto especificado en un entero de 64 bits sin signo, usando la información de formato específica de la referencia cultural indicada.
ToUInt64(Single)	Convierte el valor del número de punto flotante de precisión sencilla especificado en un entero de 64 bits sin signo equivalente.
ToUInt64(String, Int32)	Convierte la representación de cadena de un número en una base especificada en un entero de 64 bits sin signo equivalente.
ToUInt64(UInt64)	Devuelve el entero de 64 bits sin signo especificado; no se efectúa una conversión real.
ToUInt64(SByte)	Convierte el valor del entero de 8 bits con signo especificado en un entero de 64 bits sin signo equivalente.
ToUInt64(Int16)	Convierte el valor del entero de 16 bits con signo especificado en un entero de 64 bits sin signo equivalente.
ToUInt64(Int64)	Convierte el valor del entero de 64 bits con signo especificado en un entero de 64 bits sin signo equivalente.
ToUInt64(Int32)	Convierte el valor del entero de 32 bits con signo especificado en un entero de 64 bits sin signo equivalente.
ToUInt64(Double)	Convierte el valor del número de punto flotante de precisión doble especificado en un entero de 64 bits sin signo equivalente.
ToUInt64(Decimal)	Convierte el valor del número decimal especificado en un entero de 64 bits sin signo equivalente.
ToUInt64(DateTime)	Cuando se llama a este método, siempre se produce InvalidCastException.
ToUInt64(Char)	Convierte el valor del carácter Unicode especificado en un entero de 64 bits sin signo equivalente.
ToUInt64(Byte)	Convierte el valor del entero de 8 bits sin signo especificado en un entero de 64 bits sin signo equivalente.
ToUInt64(Boolean)	Convierte el valor booleano especificado en un entero de 64 bits sin signo equivalente.
ToUInt64(Object)	Convierte el valor del objeto especificado en un entero de 64 bits sin signo.

ToUInt64(String)

Source:

Convert.cs

Importante

Esta API no es conforme a CLS.

Convierte la representación de cadena especificada de un número en un entero de 64 bits sin signo equivalente.

public:
 static System::UInt64 ToUInt64(System::String ^ value);

[System.CLSCompliant(false)]
public static ulong ToUInt64 (string? value);

[<System.CLSCompliant(false)>]
static member ToUInt64 : string -> uint64

Public Shared Function ToUInt64 (value As String) As ULong

Parámetros

value

String

Cadena que contiene el número que se va a convertir.

Devoluciones

UInt64

Un entero de 64 bits con signo equivalente al número de value, o 0 (cero) si value es null.

Atributos

CLSCompliantAttribute

Excepciones

FormatException

value no está formado por un signo opcional seguido de una secuencia de dígitos (de 0 a 9).

OverflowException

value representa un número menor que UInt64.MinValue o mayor que UInt64.MaxValue.

Ejemplos

En el ejemplo siguiente se interpretan los elementos de una matriz de cadenas como cadenas numéricas e intenta convertirlos en enteros largos sin signo.

string[] values = { "One", "1.34e28", "-26.87", "-18", "-6.00",
                    " 0", "137", "1601.9", Int32.MaxValue.ToString() };
ulong result;

foreach (string value in values)
{
   try {
      result = Convert.ToUInt64(value);
      Console.WriteLine("Converted the {0} value '{1}' to the {2} value {3}.",
                        value.GetType().Name, value, result.GetType().Name, result);
   }
   catch (OverflowException) {
      Console.WriteLine("{0} is outside the range of the UInt64 type.", value);
   }
   catch (FormatException) {
      Console.WriteLine("The {0} value '{1}' is not in a recognizable format.",
                        value.GetType().Name, value);
   }
}
// The example displays the following output:
//    The String value 'One' is not in a recognizable format.
//    The String value '1.34e28' is not in a recognizable format.
//    The String value '-26.87' is not in a recognizable format.
//    -18 is outside the range of the UInt64 type.
//    The String value '-6.00' is not in a recognizable format.
//    Converted the String value ' 0' to the UInt64 value 0.
//    Converted the String value '137' to the UInt64 value 137.
//    The String value '1601.9' is not in a recognizable format.
//    Converted the String value '2147483647' to the UInt64 value 2147483647.

let values =
    [| "1603"; "1,603"; "one"; "1.6e03"
       "1.2e-02"; "-1326"; "1074122" |]

for value in values do
    try
        let result = Convert.ToUInt16 value
        printfn $"Converted the {value.GetType().Name} value '{value}' to the {result.GetType().Name} value {result}."
    with
    | :? FormatException ->
        printfn $"The {value.GetType().Name} value {value} is not in a recognizable format."
    | :? OverflowException ->
        printfn $"{value} is outside the range of the UInt64 type." 
// The example displays the following output:
//    Converted the String value '1603' to the UInt64 value 1603.
//    The String value 1,603 is not in a recognizable format.
//    The String value one is not in a recognizable format.
//    The String value 1.6e03 is not in a recognizable format.
//    The String value 1.2e-02 is not in a recognizable format.
//    -1326 is outside the range of the UInt64 type.
//    1074122 is outside the range of the UInt64 type.

Dim values() As String = { "One", "1.34e28", "-26.87", "-18", "-6.00", _
                           " 0", "137", "1601.9", Int32.MaxValue.ToString() }
Dim result As ULong

For Each value As String In values
   Try
      result = Convert.ToUInt64(value)
      Console.WriteLine("Converted the {0} value '{1}' to the {2} value {3}.", _
                        value.GetType().Name, value, result.GetType().Name, result)
   Catch e As OverflowException
      Console.WriteLine("{0} is outside the range of the UInt64 type.", value)
   Catch e As FormatException
      Console.WriteLine("The {0} value '{1}' is not in a recognizable format.", _
                        value.GetType().Name, value)
   End Try   
Next                                 
' The example displays the following output:
'    The String value 'One' is not in a recognizable format.
'    The String value '1.34e28' is not in a recognizable format.
'    The String value '-26.87' is not in a recognizable format.
'    -18 is outside the range of the UInt64 type.
'    The String value '-6.00' is not in a recognizable format.
'    Converted the String value ' 0' to the UInt64 value 0.
'    Converted the String value '137' to the UInt64 value 137.
'    The String value '1601.9' is not in a recognizable format.
'    Converted the String value '2147483647' to the UInt64 value 2147483647.

Comentarios

El uso del ToInt64(String) método equivale a pasar value al Int64.Parse(String) método . value se interpreta mediante las convenciones de formato de la referencia cultural actual.

Si prefiere no controlar una excepción si se produce un error en la conversión, puede llamar al UInt64.TryParse método en su lugar. Devuelve un Boolean valor que indica si la conversión se realizó correctamente o no.

ToUInt64(UInt16)

Source:

Convert.cs

Importante

Esta API no es conforme a CLS.

Convierte el valor del entero de 16 bits sin signo especificado en un entero de 64 bits sin signo equivalente.

public:
 static System::UInt64 ToUInt64(System::UInt16 value);

[System.CLSCompliant(false)]
public static ulong ToUInt64 (ushort value);

[<System.CLSCompliant(false)>]
static member ToUInt64 : uint16 -> uint64

Public Shared Function ToUInt64 (value As UShort) As ULong

Parámetros

value

UInt16

Entero de 16 bits sin signo que se va a convertir.

Devoluciones

UInt64

Un entero de 64 bits sin signo equivalente a value.

Atributos

CLSCompliantAttribute

Ejemplos

En el ejemplo siguiente se convierte cada elemento de una matriz de enteros de 16 bits sin signo en un entero largo sin signo.

ushort[] numbers = { UInt16.MinValue, 121, 340, UInt16.MaxValue };
ulong result;

foreach (ushort number in numbers)
{
   try {
      result = Convert.ToUInt64(number);
      Console.WriteLine("Converted the {0} value {1} to the {2} value {3}.",
                        number.GetType().Name, number,
                        result.GetType().Name, result);
   }
   catch (OverflowException) {
      Console.WriteLine("The {0} value {1} is outside the range of the UInt64 type.",
                        number.GetType().Name, number);
   }
}
// The example displays the following output:
//    Converted the UInt16 value 0 to the UInt64 value 0.
//    Converted the UInt16 value 121 to the UInt64 value 121.
//    Converted the UInt16 value 340 to the UInt64 value 340.
//    Converted the UInt16 value 65535 to the UInt64 value 65535.

let numbers = [| UInt16.MinValue; 121us; 340us; UInt16.MaxValue |]

for number in numbers do
    try
        let result = Convert.ToUInt16 number
        printfn $"Converted the {number.GetType().Name} value '{number}' to the {result.GetType().Name} value {result}."
    with :? OverflowException ->
        printfn $"The {number.GetType().Name} value {number} is outside the range of the UInt64 type."
                        
// The example displays the following output:
//    Converted the UInt16 value '0' to the UInt64 value 0.
//    Converted the UInt16 value '121' to the UInt64 value 121.
//    Converted the UInt16 value '340' to the UInt64 value 340.
//    The UInt16 value 65535 is outside the range of the UInt64 type.

Dim numbers() As UShort = { UInt16.MinValue, 121, 340, UInt16.MaxValue }
Dim result As ULong

For Each number As UShort In numbers
   result = Convert.ToUInt64(number)
   Console.WriteLine("Converted the {0} value {1} to the {2} value {3}.", _
                     number.GetType().Name, number, _
                     result.GetType().Name, result)
Next
' The example displays the following output:
'    Converted the UInt16 value 0 to the UInt64 value 0.
'    Converted the UInt16 value 121 to the UInt64 value 121.
'    Converted the UInt16 value 340 to the UInt64 value 340.
'    Converted the UInt16 value 65535 to the UInt64 value 65535.

ToUInt64(UInt32)

Source:

Convert.cs

Importante

Esta API no es conforme a CLS.

Convierte el valor del entero de 32 bits sin signo especificado en un entero de 64 bits sin signo equivalente.

public:
 static System::UInt64 ToUInt64(System::UInt32 value);

[System.CLSCompliant(false)]
public static ulong ToUInt64 (uint value);

[<System.CLSCompliant(false)>]
static member ToUInt64 : uint32 -> uint64

Public Shared Function ToUInt64 (value As UInteger) As ULong

Parámetros

value

UInt32

Entero de 32 bits sin signo que se va a convertir.

Devoluciones

UInt64

Un entero de 64 bits sin signo equivalente a value.

Atributos

CLSCompliantAttribute

Ejemplos

En el ejemplo siguiente se convierte cada elemento de una matriz de enteros sin signo en un entero largo sin signo.

uint[] numbers = { UInt32.MinValue, 121, 340, UInt32.MaxValue };
ulong result;

foreach (uint number in numbers)
{
   try {
      result = Convert.ToUInt64(number);
      Console.WriteLine("Converted the {0} value {1} to the {2} value {3}.",
                        number.GetType().Name, number,
                        result.GetType().Name, result);
   }
   catch (OverflowException) {
      Console.WriteLine("The {0} value {1} is outside the range of the UInt64 type.",
                        number.GetType().Name, number);
   }
}
// The example displays the following output:
//    Converted the UInt32 value 0 to the UInt64 value 0.
//    Converted the UInt32 value 121 to the UInt64 value 121.
//    Converted the UInt32 value 340 to the UInt64 value 340.
//    Converted the UInt32 value 4294967295 to the UInt64 value 4294967295.

let numbers = [| UInt32.MinValue; 121u; 340u; UInt32.MaxValue |]

for number in numbers do
    try
        let result = Convert.ToUInt16 number
        printfn $"Converted the {number.GetType().Name} value '{number}' to the {result.GetType().Name} value {result}."
    with :? OverflowException ->
        printfn $"The {number.GetType().Name} value {number} is outside the range of the UInt64 type."
// The example displays the following output:
//    Converted the UInt32 value '0' to the UInt64 value 0.
//    Converted the UInt64 value '121' to the UInt64 value 121.
//    Converted the UInt64 value '340' to the UInt64 value 340.
//    The UInt32 value 4294967295 is outside the range of the UInt64 type.

Dim numbers() As UInteger = { UInt32.MinValue, 121, 340, UInt32.MaxValue }
Dim result As ULong

For Each number As UInteger In numbers
   result = Convert.ToUInt64(number)
   Console.WriteLine("Converted the {0} value {1} to the {2} value {3}.", _
                     number.GetType().Name, number, _
                     result.GetType().Name, result)
Next
' The example displays the following output:
'    Converted the UInt32 value 0 to the UInt64 value 0.
'    Converted the UInt32 value 121 to the UInt64 value 121.
'    Converted the UInt32 value 340 to the UInt64 value 340.
'    Converted the UInt32 value 4294967295 to the UInt64 value 4294967295.

ToUInt64(String, IFormatProvider)

Source:

Convert.cs

Importante

Esta API no es conforme a CLS.

Convierte la representación de cadena especificada de un número en un entero de 64 bits sin signo equivalente, usando la información de formato específica de la referencia cultural indicada.

public:
 static System::UInt64 ToUInt64(System::String ^ value, IFormatProvider ^ provider);

[System.CLSCompliant(false)]
public static ulong ToUInt64 (string? value, IFormatProvider? provider);

[<System.CLSCompliant(false)>]
static member ToUInt64 : string * IFormatProvider -> uint64

Public Shared Function ToUInt64 (value As String, provider As IFormatProvider) As ULong

Parámetros

value

String

Cadena que contiene el número que se va a convertir.

provider

IFormatProvider

Objeto que proporciona información de formato específica de la referencia cultural.

Devoluciones

UInt64

Un entero de 64 bits sin signo equivalente al número de value, o 0 (cero) si value es null.

Atributos

CLSCompliantAttribute

Excepciones

FormatException

value no está formado por un signo opcional seguido de una secuencia de dígitos (de 0 a 9).

OverflowException

value representa un número menor que UInt64.MinValue o mayor que UInt64.MaxValue.

Ejemplos

En el ejemplo siguiente se define un objeto personalizado NumberFormatInfo que reconoce la cadena "pos" como el signo positivo y la cadena "neg" como signo negativo. A continuación, intenta convertir cada elemento de una matriz de cadenas numéricas en un entero largo sin signo. La conversión usa tanto el proveedor personalizado como el NumberFormatInfo proveedor para la referencia cultural invariable.

using System;
using System.Globalization;

public class Example
{
   public static void Main()
   {
      // Create a NumberFormatInfo object and set several properties.
      NumberFormatInfo provider = new NumberFormatInfo();
      provider.PositiveSign = "pos ";
      provider.NegativeSign = "neg ";

      // Define an array of numeric strings.
      string[] values = { "123456789012", "+123456789012",
                          "pos 123456789012", "123456789012.",
                          "123,456,789,012", "18446744073709551615",
                          "18446744073709551616", "neg 1", "-1" };
      //  Convert the strings using the format provider.
      foreach (string value in values)
      {
         Console.Write("{0,-20}  -->  ", value);
         try {
            Console.WriteLine("{0,20}", Convert.ToUInt64(value, provider));
         }
         catch (FormatException) {
            Console.WriteLine("{0,20}", "Invalid Format");
         }
         catch (OverflowException) {
            Console.WriteLine("{0,20}", "Numeric Overflow");
         }
      }
   }
}
// The example displays the following output:
//    123456789012          -->          123456789012
//    +123456789012         -->        Invalid Format
//    pos 123456789012      -->          123456789012
//    123456789012.         -->        Invalid Format
//    123,456,789,012       -->        Invalid Format
//    18446744073709551615  -->  18446744073709551615
//    18446744073709551616  -->      Numeric Overflow
//    neg 1                 -->      Numeric Overflow
//    -1                    -->        Invalid Format

open System
open System.Globalization

// Create a NumberFormatInfo object and set several properties.
let provider = NumberFormatInfo()
provider.PositiveSign <- "pos "
provider.NegativeSign <- "neg "

// Define an array of numeric strings.
let values =
    [| "123456789012"; "+123456789012"
       "pos 123456789012"; "123456789012."
       "123,456,789,012"; "18446744073709551615"
       "18446744073709551616"; "neg 1"; "-1" |]

// Convert the strings using the format provider.
for value in values do
    printf $"{value,-20}  -->  "
    try
        printfn $"{Convert.ToUInt64(value, provider),20}"
    with
    | :? FormatException ->
        printfn "%20s" "Invalid Format"
    | :? OverflowException ->
        printfn "%20s" "Numeric Overflow"
// The example displays the following output:
//    123456789012          -->          123456789012
//    +123456789012         -->        Invalid Format
//    pos 123456789012      -->          123456789012
//    123456789012.         -->        Invalid Format
//    123,456,789,012       -->        Invalid Format
//    18446744073709551615  -->  18446744073709551615
//    18446744073709551616  -->      Numeric Overflow
//    neg 1                 -->      Numeric Overflow
//    -1                    -->        Invalid Format

Imports System.Globalization

Module Example
   Public Sub Main()
      ' Create a NumberFormatInfo object and set several properties.
      Dim provider As New NumberFormatInfo()
      provider.PositiveSign = "pos "
      provider.NegativeSign = "neg "

      ' Define an array of numeric strings.
      Dim values() As String = { "123456789012", "+123456789012", _
                                 "pos 123456789012", "123456789012.", _
                                 "123,456,789,012", "18446744073709551615", _
                                 "18446744073709551616", "neg 1", "-1" }
      '  Convert the strings using the format provider.
      For Each value As String In values
         Console.Write("{0,-20}  -->  ", value)
         Try
            Console.WriteLine("{0,20}", Convert.ToUInt64(value, provider))
         Catch e As FormatException
            Console.WriteLine("{0,20}", "Invalid Format")
         Catch e As OverflowException
            Console.WriteLine("{0,20}", "Numeric Overflow")
         End Try               
      Next
    End Sub 
End Module 
' The example displays the following output:
'    123456789012          -->          123456789012
'    +123456789012         -->        Invalid Format
'    pos 123456789012      -->          123456789012
'    123456789012.         -->        Invalid Format
'    123,456,789,012       -->        Invalid Format
'    18446744073709551615  -->  18446744073709551615
'    18446744073709551616  -->      Numeric Overflow
'    neg 1                 -->      Numeric Overflow
'    -1                    -->        Invalid Format

Comentarios

El valor devuelto es el resultado de invocar UInt64.Parse en value.

provider es una IFormatProvider implementación que obtiene un NumberFormatInfo objeto . El NumberFormatInfo objeto proporciona información específica de la referencia cultural sobre el formato de value. Si provider es null, se usa el NumberFormatInfo objeto de la referencia cultural actual.

Si prefiere no controlar una excepción si se produce un error en la conversión, puede llamar al UInt64.TryParse método en su lugar. Devuelve un Boolean valor que indica si la conversión se realizó correctamente o no.

ToUInt64(Object, IFormatProvider)

Source:

Convert.cs

Importante

Esta API no es conforme a CLS.

Convierte el valor del objeto especificado en un entero de 64 bits sin signo, usando la información de formato específica de la referencia cultural indicada.

public:
 static System::UInt64 ToUInt64(System::Object ^ value, IFormatProvider ^ provider);

[System.CLSCompliant(false)]
public static ulong ToUInt64 (object? value, IFormatProvider? provider);

[<System.CLSCompliant(false)>]
static member ToUInt64 : obj * IFormatProvider -> uint64

Public Shared Function ToUInt64 (value As Object, provider As IFormatProvider) As ULong

Parámetros

value

Object

Objeto que implementa la interfaz IConvertible.

provider

IFormatProvider

Objeto que proporciona información de formato específica de la referencia cultural.

Devoluciones

UInt64

Un entero de 64 bits sin signo equivalente a value, o cero si value es null.

Atributos

CLSCompliantAttribute

Excepciones

FormatException

value no tiene un formato adecuado.

InvalidCastException

value no implementa la interfaz IConvertible.

O bien

No se admite la conversión.

OverflowException

value representa un número menor que UInt64.MinValue o mayor que UInt64.MaxValue.

Ejemplos

En el ejemplo siguiente se define una HexString clase que implementa la IConvertible interfaz y que está diseñada para contener la representación de cadena de los valores sin signo de 64 y 64 bits. La clase incluye una Sign propiedad que indica el signo de su valor hexadecimal.

using System;
using System.Globalization;
using System.Text.RegularExpressions;

public enum SignBit { Negative=-1, Zero=0, Positive=1 };

public struct HexString : IConvertible
{
   private SignBit signBit;
   private string hexString;

   public SignBit Sign
   {
      set { signBit = value; }
      get { return signBit; }
   }

   public string Value
   {
      set
      {
         if (value.Trim().Length > 16)
            throw new ArgumentException("The hexadecimal representation of a 64-bit integer cannot have more than 16 characters.");
         else if (! Regex.IsMatch(value, "([0-9,A-F]){1,8}", RegexOptions.IgnoreCase))
            throw new ArgumentException("The hexadecimal representation of a 64-bit integer contains invalid characters.");
         else
            hexString = value;
      }
      get { return hexString; }
   }

   // IConvertible implementations.
   public TypeCode GetTypeCode()
   {
      return TypeCode.Object;
   }

   public bool ToBoolean(IFormatProvider provider)
   {
      return signBit != SignBit.Zero;
   }

   public byte ToByte(IFormatProvider provider)
   {
      if (signBit == SignBit.Negative)
         throw new OverflowException(String.Format("{0} is out of range of the Byte type.", Convert.ToInt64(hexString, 16)));
      else
         try {
            return Byte.Parse(hexString, NumberStyles.HexNumber);
         }
         catch (OverflowException e) {
            throw new OverflowException(String.Format("{0} is out of range of the Byte type.", Convert.ToUInt64(hexString, 16)), e);
         }
   }

   public char ToChar(IFormatProvider provider)
   {
      if (signBit == SignBit.Negative)
         throw new OverflowException(String.Format("{0} is out of range of the Char type.", Convert.ToInt64(hexString, 16)));

      try {
         ushort codePoint = UInt16.Parse(this.hexString, NumberStyles.HexNumber);
         return Convert.ToChar(codePoint);
      }
      catch (OverflowException) {
         throw new OverflowException(String.Format("{0} is out of range of the Char type.", Convert.ToUInt64(hexString, 16)));
      }
   }

   public DateTime ToDateTime(IFormatProvider provider)
   {
      throw new InvalidCastException("Hexadecimal to DateTime conversion is not supported.");
   }

   public decimal ToDecimal(IFormatProvider provider)
   {
      if (signBit == SignBit.Negative)
      {
         long hexValue = Int64.Parse(hexString, NumberStyles.HexNumber);
         return Convert.ToDecimal(hexValue);
      }
      else
      {
         ulong hexValue = UInt64.Parse(hexString, NumberStyles.HexNumber);
         return Convert.ToDecimal(hexValue);
      }
   }

   public double ToDouble(IFormatProvider provider)
   {
      if (signBit == SignBit.Negative)
         return Convert.ToDouble(Int64.Parse(hexString, NumberStyles.HexNumber));
      else
         return Convert.ToDouble(UInt64.Parse(hexString, NumberStyles.HexNumber));
   }

   public short ToInt16(IFormatProvider provider)
   {
      if (signBit == SignBit.Negative)
         try {
            return Convert.ToInt16(Int64.Parse(hexString, NumberStyles.HexNumber));
         }
         catch (OverflowException e) {
            throw new OverflowException(String.Format("{0} is out of range of the Int16 type.", Convert.ToInt64(hexString, 16)), e);
         }
      else
         try {
            return Convert.ToInt16(UInt64.Parse(hexString, NumberStyles.HexNumber));
         }
         catch (OverflowException e) {
            throw new OverflowException(String.Format("{0} is out of range of the Int16 type.", Convert.ToUInt64(hexString, 16)), e);
         }
   }

   public int ToInt32(IFormatProvider provider)
   {
      if (signBit == SignBit.Negative)
         try {
            return Convert.ToInt32(Int64.Parse(hexString, NumberStyles.HexNumber));
         }
         catch (OverflowException e) {
            throw new OverflowException(String.Format("{0} is out of range of the Int32 type.", Convert.ToUInt64(hexString, 16)), e);
         }
      else
         try {
            return Convert.ToInt32(UInt64.Parse(hexString, NumberStyles.HexNumber));
         }
         catch (OverflowException e) {
            throw new OverflowException(String.Format("{0} is out of range of the Int32 type.", Convert.ToUInt64(hexString, 16)), e);
         }
   }

   public long ToInt64(IFormatProvider provider)
   {
      if (signBit == SignBit.Negative)
         return Int64.Parse(hexString, NumberStyles.HexNumber);
      else
         try {
            return Convert.ToInt64(UInt64.Parse(hexString, NumberStyles.HexNumber));
         }
         catch (OverflowException e) {
            throw new OverflowException(String.Format("{0} is out of range of the Int64 type.", Convert.ToUInt64(hexString, 16)), e);
         }
   }

   public sbyte ToSByte(IFormatProvider provider)
   {
      if (signBit == SignBit.Negative)
         try {
            return Convert.ToSByte(Int64.Parse(hexString, NumberStyles.HexNumber));
         }
         catch (OverflowException e) {
            throw new OverflowException(String.Format("{0} is outside the range of the SByte type.",
                                                      Int64.Parse(hexString, NumberStyles.HexNumber), e));
         }
      else
         try {
            return Convert.ToSByte(UInt64.Parse(hexString, NumberStyles.HexNumber));
         }
         catch (OverflowException e) {
            throw new OverflowException(String.Format("{0} is outside the range of the SByte type.",
                                                    UInt64.Parse(hexString, NumberStyles.HexNumber)), e);
         }
   }

   public float ToSingle(IFormatProvider provider)
   {
      if (signBit == SignBit.Negative)
         return Convert.ToSingle(Int64.Parse(hexString, NumberStyles.HexNumber));
      else
         return Convert.ToSingle(UInt64.Parse(hexString, NumberStyles.HexNumber));
   }

   public string ToString(IFormatProvider provider)
   {
      return "0x" + this.hexString;
   }

   public object ToType(Type conversionType, IFormatProvider provider)
   {
      switch (Type.GetTypeCode(conversionType))
      {
         case TypeCode.Boolean:
            return this.ToBoolean(null);
         case TypeCode.Byte:
            return this.ToByte(null);
         case TypeCode.Char:
            return this.ToChar(null);
         case TypeCode.DateTime:
            return this.ToDateTime(null);
         case TypeCode.Decimal:
            return this.ToDecimal(null);
         case TypeCode.Double:
            return this.ToDouble(null);
         case TypeCode.Int16:
            return this.ToInt16(null);
         case TypeCode.Int32:
            return this.ToInt32(null);
         case TypeCode.Int64:
            return this.ToInt64(null);
         case TypeCode.Object:
            if (typeof(HexString).Equals(conversionType))
               return this;
            else
               throw new InvalidCastException(String.Format("Conversion to a {0} is not supported.", conversionType.Name));
         case TypeCode.SByte:
            return this.ToSByte(null);
         case TypeCode.Single:
            return this.ToSingle(null);
         case TypeCode.String:
            return this.ToString(null);
         case TypeCode.UInt16:
            return this.ToUInt16(null);
         case TypeCode.UInt32:
            return this.ToUInt32(null);
         case TypeCode.UInt64:
            return this.ToUInt64(null);
         default:
            throw new InvalidCastException(String.Format("Conversion to {0} is not supported.", conversionType.Name));
      }
   }

   public ushort ToUInt16(IFormatProvider provider)
   {
      if (signBit == SignBit.Negative)
         throw new OverflowException(String.Format("{0} is outside the range of the UInt16 type.",
                                                   Int64.Parse(hexString, NumberStyles.HexNumber)));
      else
         try {
            return Convert.ToUInt16(UInt64.Parse(hexString, NumberStyles.HexNumber));
         }
         catch (OverflowException e) {
            throw new OverflowException(String.Format("{0} is out of range of the UInt16 type.", Convert.ToUInt64(hexString, 16)), e);
         }
   }

   public uint ToUInt32(IFormatProvider provider)
   {
      if (signBit == SignBit.Negative)
         throw new OverflowException(String.Format("{0} is outside the range of the UInt32 type.",
                                                   Int64.Parse(hexString, NumberStyles.HexNumber)));
      else
         try {
            return Convert.ToUInt32(UInt64.Parse(hexString, NumberStyles.HexNumber));
         }
         catch (OverflowException) {
            throw new OverflowException(String.Format("{0} is outside the range of the UInt32 type.",
                                                      UInt64.Parse(hexString, NumberStyles.HexNumber)));
         }
   }

   public ulong ToUInt64(IFormatProvider provider)
   {
      if (signBit == SignBit.Negative)
         throw new OverflowException(String.Format("{0} is outside the range of the UInt64 type.",
                                                   Int64.Parse(hexString, NumberStyles.HexNumber)));
      else
         return Convert.ToUInt64(hexString, 16);
   }
}

open System
open System.Globalization
open System.Text.RegularExpressions

type SignBit =
    | Negative = -1
    | Zero = 0
    | Positive = 1

[<Struct>]
type HexString =
    val mutable private hexString: string

    val mutable Sign: SignBit

    member this.Value
        with get () = this.hexString
        and set (value: string) =
            if value.Trim().Length > 16 then
                invalidArg "value" "The hexadecimal representation of a 64-bit integer cannot have more than 16 characters."
            elif Regex.IsMatch(value, "([0-9,A-F]){1,8}", RegexOptions.IgnoreCase) |> not then
                invalidArg "value" "The hexadecimal representation of a 64-bit integer contains invalid characters."
            else
                this.hexString <- value

    // IConvertible implementations.
    interface IConvertible with
        member _.GetTypeCode() =
            TypeCode.Object

        member this.ToBoolean(provider: IFormatProvider) =
            this.Sign <> SignBit.Zero

        member this.ToByte(provider: IFormatProvider) =
            if this.Sign = SignBit.Negative then
                raise (OverflowException $"{Convert.ToInt64(this.hexString, 16)} is out of range of the Byte type.")
            try
                Byte.Parse(this.hexString, NumberStyles.HexNumber)
            with :? OverflowException as e ->
                raise (OverflowException($"{Convert.ToUInt64(this.hexString, 16)} is out of range of the Byte type.", e) )

        member this.ToChar(provider: IFormatProvider) =
            if this.Sign = SignBit.Negative then
                raise (OverflowException $"{Convert.ToInt64(this.hexString, 16)} is out of range of the Char type.")
            try
                let codePoint = UInt16.Parse(this.hexString, NumberStyles.HexNumber)
                Convert.ToChar codePoint
            with :? OverflowException ->
                raise (OverflowException $"{Convert.ToUInt64(this.hexString, 16)} is out of range of the Char type.")

        member this.ToDateTime(provider: IFormatProvider) =
            raise (InvalidCastException "Hexadecimal to DateTime conversion is not supported.")

        member this.ToDecimal(provider: IFormatProvider) =
            if this.Sign = SignBit.Negative then
                let hexValue = Int64.Parse(this.hexString, NumberStyles.HexNumber)
                Convert.ToDecimal hexValue
            else
                let hexValue = UInt64.Parse(this.hexString, NumberStyles.HexNumber)
                Convert.ToDecimal hexValue

        member this.ToDouble(provider: IFormatProvider) =
            if this.Sign = SignBit.Negative then
                Convert.ToDouble(Int64.Parse(this.hexString, NumberStyles.HexNumber))
            else
                Convert.ToDouble(UInt64.Parse(this.hexString, NumberStyles.HexNumber))

        member this.ToInt16(provider: IFormatProvider) =
            if this.Sign = SignBit.Negative then
                try
                    Convert.ToInt16(Int64.Parse(this.hexString, NumberStyles.HexNumber))
                with :? OverflowException as e ->
                    raise (OverflowException($"{Convert.ToInt64(this.hexString, 16)} is out of range of the Int16 type.", e) )
            else
                try
                    Convert.ToInt16(UInt64.Parse(this.hexString, NumberStyles.HexNumber))
                with :? OverflowException as e ->
                    raise (OverflowException($"{Convert.ToUInt64(this.hexString, 16)} is out of range of the Int16 type.", e) )

        member this.ToInt32(provider: IFormatProvider) =
            if this.Sign = SignBit.Negative then
                try
                    Convert.ToInt32(Int64.Parse(this.hexString, NumberStyles.HexNumber))
                with :? OverflowException as e ->
                    raise (OverflowException($"{Convert.ToUInt64(this.hexString, 16)} is out of range of the Int32 type.", e) )
            else
                try
                    Convert.ToInt32(UInt64.Parse(this.hexString, NumberStyles.HexNumber))
                with :? OverflowException as e ->
                    raise (OverflowException($"{Convert.ToUInt64(this.hexString, 16)} is out of range of the Int32 type.", e) )

        member this.ToInt64(provider: IFormatProvider) =
            if this.Sign = SignBit.Negative then
                Int64.Parse(this.hexString, NumberStyles.HexNumber)
            else
                try
                    Convert.ToInt64(UInt64.Parse(this.hexString, NumberStyles.HexNumber))
                with :? OverflowException as e ->
                    raise (OverflowException($"{Convert.ToUInt64(this.hexString, 16)} is out of range of the Int64 type.", e) )

        member this.ToSByte(provider: IFormatProvider) =
            if this.Sign = SignBit.Negative then
                try
                    Convert.ToSByte(Int64.Parse(this.hexString, NumberStyles.HexNumber))
                with :? OverflowException as e ->
                    raise (OverflowException($"{Int64.Parse(this.hexString, NumberStyles.HexNumber)} is outside the range of the SByte type.", e) )
            else
                try
                    Convert.ToSByte(UInt64.Parse(this.hexString, NumberStyles.HexNumber))
                with :? OverflowException as e ->
                    raise (OverflowException($"{UInt64.Parse(this.hexString, NumberStyles.HexNumber)} is outside the range of the SByte type.", e) )

        member this.ToSingle(provider: IFormatProvider) =
            if this.Sign = SignBit.Negative then
                Convert.ToSingle(Int64.Parse(this.hexString, NumberStyles.HexNumber))
            else
                Convert.ToSingle(UInt64.Parse(this.hexString, NumberStyles.HexNumber))

        member this.ToString(provider: IFormatProvider) =
            "0x" + this.hexString

        member this.ToType(conversionType: Type, provider: IFormatProvider) =
            let this = this :> IConvertible
            match Type.GetTypeCode conversionType with
            | TypeCode.Boolean ->
                this.ToBoolean null
            | TypeCode.Byte ->
                this.ToByte null
            | TypeCode.Char ->
                this.ToChar null
            | TypeCode.DateTime ->
                this.ToDateTime null
            | TypeCode.Decimal ->
                this.ToDecimal null
            | TypeCode.Double ->
                this.ToDouble null
            | TypeCode.Int16 ->
                this.ToInt16 null
            | TypeCode.Int32 ->
                this.ToInt32 null
            | TypeCode.Int64 ->
                this.ToInt64 null
            | TypeCode.Object ->
                if typeof<HexString>.Equals conversionType then
                    this
                else
                    raise (InvalidCastException $"Conversion to a {conversionType.Name} is not supported.")
            | TypeCode.SByte ->
                this.ToSByte null
            | TypeCode.Single ->
                this.ToSingle null
            | TypeCode.String ->
                this.ToString null
            | TypeCode.UInt16 ->
                this.ToUInt16 null
            | TypeCode.UInt32 ->
                this.ToUInt32 null
            | TypeCode.UInt64 ->
                this.ToUInt64 null
            | _ ->
                raise (InvalidCastException $"Conversion to {conversionType.Name} is not supported.")

        member this.ToUInt16(provider: IFormatProvider) =
            if this.Sign = SignBit.Negative then
                raise (OverflowException $"{Int64.Parse(this.hexString, NumberStyles.HexNumber)} is outside the range of the UInt16 type.")
            else
                try
                    Convert.ToUInt16(UInt64.Parse(this.hexString, NumberStyles.HexNumber))
                with :? OverflowException as e ->
                    raise (OverflowException($"{Convert.ToUInt64(this.hexString, 16)} is out of range of the UInt16 type.", e) )

        member this.ToUInt32(provider: IFormatProvider) =
            if this.Sign = SignBit.Negative then
                raise (OverflowException $"{Int64.Parse(this.hexString, NumberStyles.HexNumber)} is outside the range of the UInt32 type.")
            else
                try
                    Convert.ToUInt32(UInt64.Parse(this.hexString, NumberStyles.HexNumber))
                with :? OverflowException ->
                    raise (OverflowException $"{UInt64.Parse(this.hexString, NumberStyles.HexNumber)} is outside the range of the UInt32 type.")

        member this.ToUInt64(provider: IFormatProvider) =
            if this.Sign = SignBit.Negative then
                raise (OverflowException $"{Int64.Parse(this.hexString, NumberStyles.HexNumber)} is outside the range of the UInt64 type.")
            else
                Convert.ToUInt64(this.hexString, 16)

Imports System.Globalization
Imports System.Text.RegularExpressions

Public Enum SignBit As Integer
   Positive = 1
   Zero = 0
   Negative = -1
End Enum

Public Structure HexString : Implements IConvertible
   Private signBit As SignBit
   Private hexString As String
   
   Public Property Sign As SignBit
      Set
         signBit = value
      End Set
      Get
         Return signBit
      End Get
   End Property
   
   Public Property Value As String
      Set
         If value.Trim().Length > 16 Then
            Throw New ArgumentException("The hexadecimal representation of a 64-bit integer cannot have more than 16 characters.")
         ElseIf Not Regex.IsMatch(value, "([0-9,A-F]){1,8}", RegexOptions.IgnoreCase) Then
            Throw New ArgumentException("The hexadecimal representation of a 64-bit integer contains invalid characters.")             
         Else
            hexString = value
         End If   
      End Set
      Get
         Return hexString
      End Get
   End Property
   
   ' IConvertible implementations.
   Public Function GetTypeCode() As TypeCode _
                   Implements IConvertible.GetTypeCode
      Return TypeCode.Object
   End Function
   
   Public Function ToBoolean(provider As IFormatProvider) As Boolean _
                   Implements IConvertible.ToBoolean
      Return signBit <> SignBit.Zero
   End Function 
   
   Public Function ToByte(provider As IFormatProvider) As Byte _
                   Implements IConvertible.ToByte
      If signBit = SignBit.Negative Then
         Throw New OverflowException(String.Format("{0} is out of range of the Byte type.", Convert.ToInt64(hexString, 16))) 
      Else
         Try
            Return Byte.Parse(hexString, NumberStyles.HexNumber)
         Catch e As OverflowException
            Throw New OverflowException(String.Format("{0} is out of range of the Byte type.", Convert.ToUInt64(hexString, 16)), e)
         End Try   
      End If       
   End Function
   
   Public Function ToChar(provider As IFormatProvider) As Char _
                   Implements IConvertible.ToChar
      If signBit = SignBit.Negative Then 
         Throw New OverflowException(String.Format("{0} is out of range of the Char type.", Convert.ToInt64(hexString, 16)))
      End If
      
      Try
         Dim codePoint As UInt16 = UInt16.Parse(Me.hexString, NumberStyles.HexNumber)
         Return Convert.ToChar(codePoint)
      Catch e As OverflowException
         Throw New OverflowException(String.Format("{0} is out of range of the Char type.", Convert.ToUInt64(hexString, 16)))
      End Try      
   End Function 
   
   Public Function ToDateTime(provider As IFormatProvider) As Date _
                   Implements IConvertible.ToDateTime
      Throw New InvalidCastException("Hexadecimal to DateTime conversion is not supported.")
   End Function
   
   Public Function ToDecimal(provider As IFormatProvider) As Decimal _
                   Implements IConvertible.ToDecimal
      If signBit = SignBit.Negative Then
         Dim hexValue As Long = Int64.Parse(hexString, NumberStyles.HexNumber)
         Return Convert.ToDecimal(hexValue)
      Else
         Dim hexValue As ULong = UInt64.Parse(hexString, NumberStyles.HexNumber)
         Return Convert.ToDecimal(hexValue)
      End If
   End Function
   
   Public Function ToDouble(provider As IFormatProvider) As Double _
                   Implements IConvertible.ToDouble
      If signBit = SignBit.Negative Then
         Return Convert.ToDouble(Int64.Parse(hexString, NumberStyles.HexNumber))
      Else
         Return Convert.ToDouble(UInt64.Parse(hexString, NumberStyles.HexNumber))
      End If   
   End Function   
   
   Public Function ToInt16(provider As IFormatProvider) As Int16 _
                   Implements IConvertible.ToInt16
      If signBit = SignBit.Negative Then
         Try
            Return Convert.ToInt16(Int64.Parse(hexString, NumberStyles.HexNumber))
         Catch e As OverflowException
            Throw New OverflowException(String.Format("{0} is out of range of the Int16 type.", Convert.ToInt64(hexString, 16)), e)
         End Try
      Else
         Try
            Return Convert.ToInt16(UInt64.Parse(hexString, NumberStyles.HexNumber))
         Catch e As OverflowException
            Throw New OverflowException(String.Format("{0} is out of range of the Int16 type.", Convert.ToUInt64(hexString, 16)), e)
         End Try
      End If   
   End Function
   
   Public Function ToInt32(provider As IFormatProvider) As Int32 _
                   Implements IConvertible.ToInt32
      If signBit = SignBit.Negative Then
         Try
            Return Convert.ToInt32(Int64.Parse(hexString, NumberStyles.HexNumber))
         Catch e As OverflowException
            Throw New OverflowException(String.Format("{0} is out of range of the Int32 type.", Convert.ToUInt64(hexString, 16)), e)
         End Try
      Else
         Try
            Return Convert.ToInt32(UInt64.Parse(hexString, NumberStyles.HexNumber))
         Catch e As OverflowException
            Throw New OverflowException(String.Format("{0} is out of range of the Int32 type.", Convert.ToUInt64(hexString, 16)), e)
         End Try   
      End If   
   End Function
   
   Public Function ToInt64(provider As IFormatProvider) As Int64 _
                   Implements IConvertible.ToInt64
      If signBit = SignBit.Negative Then
         Return Int64.Parse(hexString, NumberStyles.HexNumber)
      Else
         Try
            Return Convert.ToInt64(UInt64.Parse(hexString, NumberStyles.HexNumber))
         Catch e As OverflowException
            Throw New OverflowException(String.Format("{0} is out of range of the Int64 type.", Convert.ToUInt64(hexString, 16)), e)
         End Try
      End If   
   End Function
   
   Public Function ToSByte(provider As IFormatProvider) As SByte _
                   Implements IConvertible.ToSByte
      If signBit = SignBit.Negative Then
         Try
            Return Convert.ToSByte(Int64.Parse(hexString, NumberStyles.HexNumber))
         Catch e As OverflowException
            Throw New OverflowException(String.Format("{0} is outside the range of the SByte type.", _
                                                      Int64.Parse(hexString, NumberStyles.HexNumber), e))
         End Try
      Else
         Try
            Return Convert.ToSByte(UInt64.Parse(hexString, NumberStyles.HexNumber))
         Catch e As OverflowException
            Throw New OverflowException(String.Format("{0} is outside the range of the SByte type.", _
                                                    UInt64.Parse(hexString, NumberStyles.HexNumber)), e)
         End Try   
      End If
   End Function

   Public Function ToSingle(provider As IFormatProvider) As Single _
                   Implements IConvertible.ToSingle
      If signBit = SignBit.Negative Then
         Return Convert.ToSingle(Int64.Parse(hexString, NumberStyles.HexNumber))
      Else
         Return Convert.ToSingle(UInt64.Parse(hexString, NumberStyles.HexNumber))
      End If   
   End Function

   Public Overloads Function ToString(provider As IFormatProvider) As String _
                   Implements IConvertible.ToString
      Return "0x" & Me.hexString
   End Function
   
   Public Function ToType(conversionType As Type, provider As IFormatProvider) As Object _
                   Implements IConvertible.ToType
      Select Case Type.GetTypeCode(conversionType)
         Case TypeCode.Boolean 
            Return Me.ToBoolean(Nothing)
         Case TypeCode.Byte
            Return Me.ToByte(Nothing)
         Case TypeCode.Char
            Return Me.ToChar(Nothing)
         Case TypeCode.DateTime
            Return Me.ToDateTime(Nothing)
         Case TypeCode.Decimal
            Return Me.ToDecimal(Nothing)
         Case TypeCode.Double
            Return Me.ToDouble(Nothing)
         Case TypeCode.Int16
            Return Me.ToInt16(Nothing)
         Case TypeCode.Int32
            Return Me.ToInt32(Nothing)
         Case TypeCode.Int64
            Return Me.ToInt64(Nothing)
         Case TypeCode.Object
            If GetType(HexString).Equals(conversionType) Then
               Return Me
            Else
               Throw New InvalidCastException(String.Format("Conversion to a {0} is not supported.", conversionType.Name))
            End If 
         Case TypeCode.SByte
            Return Me.ToSByte(Nothing)
         Case TypeCode.Single
            Return Me.ToSingle(Nothing)
         Case TypeCode.String
            Return Me.ToString(Nothing)
         Case TypeCode.UInt16
            Return Me.ToUInt16(Nothing)
         Case TypeCode.UInt32
            Return Me.ToUInt32(Nothing)
         Case TypeCode.UInt64
            Return Me.ToUInt64(Nothing)   
         Case Else
            Throw New InvalidCastException(String.Format("Conversion to {0} is not supported.", conversionType.Name))   
      End Select
   End Function
   
   Public Function ToUInt16(provider As IFormatProvider) As UInt16 _
                   Implements IConvertible.ToUInt16
      If signBit = SignBit.Negative Then
         Throw New OverflowException(String.Format("{0} is outside the range of the UInt16 type.", _
                                                   Int64.Parse(hexString, NumberStyles.HexNumber)))
      Else
         Try
            Return Convert.ToUInt16(UInt64.Parse(hexString, NumberStyles.HexNumber))
         Catch e As OverflowException
            Throw New OverflowException(String.Format("{0} is out of range of the UInt16 type.", Convert.ToUInt64(hexString, 16)), e)
         End Try            
      End If   
   End Function

   Public Function ToUInt32(provider As IFormatProvider) As UInt32 _
                   Implements IConvertible.ToUInt32
      If signBit = SignBit.Negative Then
         Throw New OverflowException(String.Format("{0} is outside the range of the UInt32 type.", _
                                                   Int64.Parse(hexString, NumberStyles.HexNumber)))
      Else
         Try
            Return Convert.ToUInt32(UInt64.Parse(hexString, NumberStyles.HexNumber))
         Catch e As OverflowException
         Throw New OverflowException(String.Format("{0} is outside the range of the UInt32 type.", _
                                                   UInt64.Parse(hexString, NumberStyles.HexNumber)))
         End Try   
      End If   
   End Function
   
   Public Function ToUInt64(provider As IFormatProvider) As UInt64 _
                   Implements IConvertible.ToUInt64
      If signBit = SignBit.Negative Then
         Throw New OverflowException(String.Format("{0} is outside the range of the UInt64 type.", _
                                                   Int64.Parse(hexString, NumberStyles.HexNumber)))
      Else
         Return Convert.ToUInt64(hexString, 16)
      End If   
   End Function
End Structure

En el ejemplo siguiente se muestra que una llamada al ToUInt64(Object, IFormatProvider) método que pasa un HexString objeto como parámetro, a su vez, llama a la IConvertible.ToUInt64 implementación de la HexString clase .

public class Example
{
   public static void Main()
   {
      ulong positiveValue = UInt64.MaxValue - 100000;
      long negativeValue = -1;

      HexString positiveString = new HexString();
      positiveString.Sign = (SignBit) Math.Sign((decimal)positiveValue);
      positiveString.Value = positiveValue.ToString("X");

      HexString negativeString = new HexString();
      negativeString.Sign = (SignBit) Math.Sign(negativeValue);
      negativeString.Value = negativeValue.ToString("X");

      try {
         Console.WriteLine("0x{0} converts to {1}.", positiveString.Value, Convert.ToUInt64(positiveString));
      }
      catch (OverflowException) {
         Console.WriteLine("{0} is outside the range of the UInt64 type.",
                           Int64.Parse(positiveString.Value, NumberStyles.HexNumber));
      }

      try {
         Console.WriteLine("0x{0} converts to {1}.", negativeString.Value, Convert.ToUInt64(negativeString));
      }
      catch (OverflowException) {
         Console.WriteLine("{0} is outside the range of the UInt64 type.",
                           Int64.Parse(negativeString.Value, NumberStyles.HexNumber));
      }
   }
}
// The example displays the following output:
//       0xFFFFFFFFFFFE795F converts to 18446744073709451615.
//       -1 is outside the range of the UInt64 type.

let positiveValue = UInt64.MaxValue - 100000uL
let negativeValue = -1L

let mutable positiveString = HexString()
positiveString.Sign <- Math.Sign(decimal positiveValue) |> enum
positiveString.Value <- positiveValue.ToString "X"

let mutable negativeString = HexString()
negativeString.Sign <- sign negativeValue |> enum
negativeString.Value <- negativeValue.ToString "X"

try
    printfn $"0x{positiveString.Value} converts to {Convert.ToUInt64 positiveString}."
with :? OverflowException ->
    printfn $"{Int64.Parse(positiveString.Value, NumberStyles.HexNumber)} is outside the range of the UInt64 type."

try
    printfn $"0x{negativeString.Value} converts to {Convert.ToUInt64 negativeString}."
with :? OverflowException ->
    printfn $"{Int64.Parse(negativeString.Value, NumberStyles.HexNumber)} is outside the range of the UInt64 type."
// The example displays the following output:
//       0xFFFFFFFFFFFE795F converts to 18446744073709451615.
//       -1 is outside the range of the UInt64 type.

Module Example
   Public Sub Main()
      Dim positiveValue As UInt64 = CULng(UInt64.MaxValue - 100000)
      Dim negativeValue As Int64 = -1
      
      
      Dim positiveString As New HexString()
      positiveString.Sign = CType(Math.Sign(positiveValue), SignBit)
      positiveString.Value = positiveValue.ToString("X")
      
      Dim negativeString As New HexString()
      negativeString.Sign = CType(Math.Sign(negativeValue), SignBit)
      negativeString.Value = negativeValue.ToString("X")
      
      Try
         Console.WriteLine("0x{0} converts to {1}.", positiveString.Value, Convert.ToUInt64(positiveString))
      Catch e As OverflowException
         Console.WriteLine("{0} is outside the range of the UInt64 type.", _
                           Int64.Parse(positiveString.Value, NumberStyles.HexNumber))
      End Try

      Try
         Console.WriteLine("0x{0} converts to {1}.", negativeString.Value, Convert.ToUInt64(negativeString))
      Catch e As OverflowException
         Console.WriteLine("{0} is outside the range of the UInt64 type.", _
                           Int64.Parse(negativeString.Value, NumberStyles.HexNumber))
      End Try   
   End Sub
End Module
' The example dosplays the following output:
'       0xFFFFFFFFFFFE795F converts to 18446744073709451615.
'       -1 is outside the range of the UInt64 type.

Comentarios

El valor devuelto es el resultado de invocar el IConvertible.ToUInt64 método del tipo subyacente de value.

provider permite al usuario especificar información de conversión específica de la referencia cultural sobre el contenido de value. Por ejemplo, si value es un String objeto que representa un número, provider podría proporcionar información específica de la referencia cultural sobre la notación utilizada para representar ese número.

Los tipos base omiten provider; sin embargo, el parámetro se puede usar si value es un tipo definido por el usuario que implementa la IConvertible interfaz.

ToUInt64(Single)

Source:

Convert.cs

Importante

Esta API no es conforme a CLS.

Convierte el valor del número de punto flotante de precisión sencilla especificado en un entero de 64 bits sin signo equivalente.

public:
 static System::UInt64 ToUInt64(float value);

[System.CLSCompliant(false)]
public static ulong ToUInt64 (float value);

[<System.CLSCompliant(false)>]
static member ToUInt64 : single -> uint64

Public Shared Function ToUInt64 (value As Single) As ULong

Parámetros

value

Single

Número de punto flotante de precisión sencilla que se va a convertir.

Devoluciones

UInt64

value, redondeado al entero de 64 bits sin signo más próximo. Si value está en medio de dos números enteros, se devuelve el número par, es decir, 4,5 se convierte en 4 y 5,5 se convierte en 6.

Atributos

CLSCompliantAttribute

Excepciones

OverflowException

value es menor que cero o mayor que UInt64.MaxValue.

Ejemplos

En el ejemplo siguiente se intenta convertir cada elemento de una matriz de Single valores en un entero largo sin signo. La salida muestra que los valores fraccionarios se redondean antes de realizar la conversión.

float[] values= { Single.MinValue, -1.38e10f, -1023.299f, -12.98f,
                  0f, 9.113e-16f, 103.919f, 17834.191f, Single.MaxValue };
ulong result;

foreach (float value in values)
{
   try {
      result = Convert.ToUInt64(value);
      Console.WriteLine("Converted the {0} value {1} to the {2} value {3}.",
                        value.GetType().Name, value, result.GetType().Name, result);
   }
   catch (OverflowException) {
      Console.WriteLine("{0} is outside the range of the UInt64 type.", value);
   }
}
// The example displays the following output:
//    -3.402823E+38 is outside the range of the UInt64 type.
//    -1.38E+10 is outside the range of the UInt64 type.
//    -1023.299 is outside the range of the UInt64 type.
//    -12.98 is outside the range of the UInt64 type.
//    Converted the Single value 0 to the UInt64 value 0.
//    Converted the Single value 9.113E-16 to the UInt64 value 0.
//    Converted the Single value 103.919 to the UInt64 value 104.
//    Converted the Single value 17834.19 to the UInt64 value 17834.
//    3.402823E+38 is outside the range of the UInt64 type.

let numbers = 
    [| Single.MinValue; -1.38e10f; -1023.299f; -12.98f
       0f; 9.113e-16f; 103.919f; 17834.191f; Single.MaxValue |]

for number in numbers do
    try
        let result = Convert.ToUInt16 number
        printfn $"Converted the {number.GetType().Name} value '{number}' to the {result.GetType().Name} value {result}."
    with :? OverflowException ->
        printfn $"{number} is outside the range of the UInt64 type."
// The example displays the following output:
//    -3.402823E+38 is outside the range of the UInt64 type.
//    -1.38E+10 is outside the range of the UInt64 type.
//    -1023.299 is outside the range of the UInt64 type.
//    -12.98 is outside the range of the UInt64 type.
//    Converted the Single value '0' to the UInt64 value 0.
//    Converted the Single value '9.113E-16' to the UInt64 value 0.
//    Converted the Single value '103.919' to the UInt64 value 104.
//    Converted the Single value '17834.19' to the UInt64 value 17834.
//    3.402823E+38 is outside the range of the UInt64 type.

   Dim values() As Single = { Single.MinValue, -1.38e10, -1023.299, -12.98, _
                              0, 9.113e-16, 103.919, 17834.191, Single.MaxValue }
   Dim result As ULong
   
   For Each value As Single In values
      Try
         result = Convert.ToUInt64(value)
         Console.WriteLine("Converted the {0} value {1} to the {2} value {3}.", _
                           value.GetType().Name, value, result.GetType().Name, result)
      Catch e As OverflowException
         Console.WriteLine("The {0} value {1} is outside the range of the UInt64 type.", _
                           value.GetType().Name, value)
      End Try   
   Next                                 
   ' The example displays the following output:
'    The Single value -3.402823E+38 is outside the range of the UInt64 type.
'    The Single value -1.38E+10 is outside the range of the UInt64 type.
'    The Single value -1023.299 is outside the range of the UInt64 type.
'    The Single value -12.98 is outside the range of the UInt64 type.
'    Converted the Single value 0 to the UInt64 value 0.
'    Converted the Single value 9.113E-16 to the UInt64 value 0.
'    Converted the Single value 103.919 to the UInt64 value 104.
'    Converted the Single value 17834.19 to the UInt64 value 17834.
'    The Single value 3.402823E+38 is outside the range of the UInt64 type.

Consulte también

• Single
• Round

ToUInt64(String, Int32)

Source:

Convert.cs

Importante

Esta API no es conforme a CLS.

Convierte la representación de cadena de un número en una base especificada en un entero de 64 bits sin signo equivalente.

public:
 static System::UInt64 ToUInt64(System::String ^ value, int fromBase);

[System.CLSCompliant(false)]
public static ulong ToUInt64 (string? value, int fromBase);

[<System.CLSCompliant(false)>]
static member ToUInt64 : string * int -> uint64

Public Shared Function ToUInt64 (value As String, fromBase As Integer) As ULong

Parámetros

value

String

Cadena que contiene el número que se va a convertir.

fromBase

Int32

Base del número de value, que debe ser 2, 8, 10 o 16.

Devoluciones

UInt64

Un entero de 64 bits sin signo equivalente al número de value, o 0 (cero) si value es null.

Atributos

CLSCompliantAttribute

Excepciones

ArgumentException

fromBase no es 2, 8, 10 o 16.

O bien

value, que representa un número sin signo que no sea de base 10, tiene un signo negativo como prefijo.

ArgumentOutOfRangeException

value es Empty.

FormatException

value contiene un carácter que no es un dígito válido en la base especificada por fromBase. El mensaje de excepción indica que no hay dígitos para convertir si el primer carácter de value no es válido; en caso contrario, el mensaje indica que value contiene caracteres finales no válidos.

OverflowException

value, que representa un número sin signo que no sea de base 10, tiene un signo negativo como prefijo.

O bien

value representa un número menor que UInt64.MinValue o mayor que UInt64.MaxValue.

Ejemplos

En el ejemplo siguiente se intenta interpretar cada elemento de una matriz de cadenas numéricas como un valor hexadecimal y convertirlo en un entero largo sin signo.

using System;

public class Example
{
   public static void Main()
   {
      string[] hexStrings = { "8000000000000000", "0FFFFFFFFFFFFFFF",
                              "F000000000000000", "00A3000000000000",
                              "D", "-13", "9AC61", "GAD",
                              "FFFFFFFFFFFFFFFFF" };

      foreach (string hexString in hexStrings)
      {
         Console.Write("{0,-18}  -->  ", hexString);
         try {
            ulong number = Convert.ToUInt64(hexString, 16);
            Console.WriteLine("{0,26:N0}", number);
         }
         catch (FormatException) {
            Console.WriteLine("{0,26}", "Bad Format");
         }
         catch (OverflowException) {
            Console.WriteLine("{0,26}", "Numeric Overflow");
         }
         catch (ArgumentException) {
            Console.WriteLine("{0,26}", "Invalid in Base 16");
         }
      }
   }
}
// The example displays the following output:
//    8000000000000000    -->   9,223,372,036,854,775,808
//    0FFFFFFFFFFFFFFF    -->   1,152,921,504,606,846,975
//    F000000000000000    -->  17,293,822,569,102,704,640
//    00A3000000000000    -->      45,880,421,203,836,928
//    D                   -->                          13
//    -13                 -->          Invalid in Base 16
//    9AC61               -->                     633,953
//    GAD                 -->                  Bad Format
//    FFFFFFFFFFFFFFFFF   -->            Numeric Overflow

open System

let hexStrings =
    [| "8000000000000000"; "0FFFFFFFFFFFFFFF"
       "F000000000000000"; "00A3000000000000"
       "D"; "-13"; "9AC61"; "GAD"
       "FFFFFFFFFFFFFFFFF" |]

for hexString in hexStrings do
    printf $"{hexString,-18}  -->  "
    try
        let number = Convert.ToUInt64(hexString, 16)
        printfn $"{number,26:N0}"
    with
    | :? FormatException ->
        printfn "%26s" "Bad Format"
    | :? OverflowException ->
        printfn "%26s" "Numeric Overflow"
    | :? ArgumentException ->
        printfn "%26s" "Invalid in Base 16"
// The example displays the following output:
//    8000000000000000    -->   9,223,372,036,854,775,808
//    0FFFFFFFFFFFFFFF    -->   1,152,921,504,606,846,975
//    F000000000000000    -->  17,293,822,569,102,704,640
//    00A3000000000000    -->      45,880,421,203,836,928
//    D                   -->                          13
//    -13                 -->          Invalid in Base 16
//    9AC61               -->                     633,953
//    GAD                 -->                  Bad Format
//    FFFFFFFFFFFFFFFFF   -->            Numeric Overflow

Module Example
   Public Sub Main()
      Dim hexStrings() As String = { "8000000000000000", "0FFFFFFFFFFFFFFF", _
                                     "F000000000000000", "00A3000000000000", _
                                     "D", "-13", "9AC61", "GAD", _
                                     "FFFFFFFFFFFFFFFFF" }
      For Each hexString As String In hexStrings
         Console.Write("{0,-18}  -->  ", hexString)
         Try
            Dim number As ULong = Convert.ToUInt64(hexString, 16)
            Console.WriteLine("{0,26:N0}", number)
         Catch e As FormatException
            Console.WriteLine("{0,26}", "Bad Format")
         Catch e As OverflowException
            Console.WriteLine("{0,26}", "Numeric Overflow")
         Catch e As ArgumentException
            Console.WriteLine("{0,26}", "Invalid in Base 16")
         End Try
      Next                                            
   End Sub
End Module
' The example displays the following output:
'    8000000000000000    -->   9,223,372,036,854,775,808
'    0FFFFFFFFFFFFFFF    -->   1,152,921,504,606,846,975
'    F000000000000000    -->  17,293,822,569,102,704,640
'    00A3000000000000    -->      45,880,421,203,836,928
'    D                   -->                          13
'    -13                 -->          Invalid in Base 16
'    9AC61               -->                     633,953
'    GAD                 -->                  Bad Format
'    FFFFFFFFFFFFFFFFF   -->            Numeric Overflow

Comentarios

Si fromBase es 16, puede prefijar el número especificado por el value parámetro con "0x" o "0X".

Dado que el UInt64 tipo de datos solo admite valores sin signo, el ToUInt64(String, Int32) método supone que value se expresa mediante la representación binaria sin signo. En otras palabras, todos los 64 bits se usan para representar el valor numérico y un bit de signo está ausente. Como resultado, es posible escribir código en el que un valor entero largo con signo que está fuera del intervalo del tipo de UInt64 datos se convierte en un UInt64 valor sin que el método produzca una excepción. En el ejemplo siguiente se convierte MinValue en su representación de cadena hexadecimal y, a continuación, se llama al ToUInt64(String, Int32) método . En lugar de producir una excepción, el método muestra el mensaje "0x8000000000000000 convierte en 9223372036854775808".

// Create a hexadecimal value out of range of the UInt64 type.
string value = Convert.ToString(Int64.MinValue, 16);
// Convert it back to a number.
try
{
   UInt64 number = Convert.ToUInt64(value, 16);
   Console.WriteLine("0x{0} converts to {1}.", value, number);
}
catch (OverflowException)
{
   Console.WriteLine("Unable to convert '0x{0}' to an unsigned long integer.",
                     value);
}

// Create a hexadecimal value out of range of the UInt64 type.
let value = Convert.ToString(Int64.MinValue, 16)
// Convert it back to a number.
try
    let number = Convert.ToUInt64(value, 16)
    printfn $"0x{value} converts to {number}."
with :? OverflowException ->
    printfn $"Unable to convert '0x{value}' to an unsigned long integer."

' Create a hexadecimal value out of range of the UInt64 type.
Dim value As String = Convert.ToString(Long.MinValue, 16)
' Convert it back to a number.
Try
   Dim number As UInt64 = Convert.ToUInt64(value, 16)
   Console.WriteLine("0x{0} converts to {1}.", value, number)
Catch e As OverflowException
   Console.WriteLine("Unable to convert '0x{0}' to an unsigned long integer.", _
                     value)
End Try

Al realizar operaciones binarias o conversiones numéricas, siempre es responsabilidad del desarrollador comprobar que un método o operador usa la representación numérica adecuada para interpretar un valor determinado. En el ejemplo siguiente se muestra una técnica para asegurarse de que el método no usa de forma inapropiada la representación binaria para interpretar un valor que usa la representación complementaria de dos al convertir una cadena hexadecimal en un UInt64 valor. En el ejemplo se determina si un valor representa un entero con signo o sin signo mientras convierte ese valor en su representación de cadena. Cuando el ejemplo convierte el valor en un UInt64 valor, comprueba si el valor original era un entero con signo. Si es así, y si se establece su bit de orden superior (lo que indica que el valor original era negativo), el método produce una excepción.

// Create a negative hexadecimal value out of range of the UInt64 type.
long sourceNumber = Int64.MinValue;
bool isSigned = Math.Sign((long)sourceNumber.GetType().GetField("MinValue").GetValue(null)) == -1;
string value = Convert.ToString(sourceNumber, 16);
UInt64 targetNumber;
try
{
   targetNumber = Convert.ToUInt64(value, 16);
   if (isSigned && ((targetNumber & 0x8000000000000000) != 0))
      throw new OverflowException();
   else
      Console.WriteLine("0x{0} converts to {1}.", value, targetNumber);
}
catch (OverflowException)
{
   Console.WriteLine("Unable to convert '0x{0}' to an unsigned long integer.",
                     value);
}
// Displays the following to the console:
//    Unable to convert '0x8000000000000000' to an unsigned long integer.

// Create a negative hexadecimal value out of range of the UInt64 type.
let sourceNumber = Int64.MinValue
let isSigned = sign (sourceNumber.GetType().GetField("MinValue").GetValue null :?> int64) = -1
let value = Convert.ToString(sourceNumber, 16)
try
    let targetNumber = Convert.ToUInt64(value, 16)
    if isSigned && targetNumber &&& 0x8000000000000000uL <> 0uL then  
        raise (OverflowException())
    else
        printfn $"0x{value} converts to {targetNumber}."
with :? OverflowException ->
    printfn $"Unable to convert '0x{value}' to an unsigned long integer."
// Displays the following to the console:
//    Unable to convert '0x8000000000000000' to an unsigned long integer.

' Create a negative hexadecimal value out of range of the UInt64 type.
Dim sourceNumber As Long = Long.MinValue
Dim isSigned As Boolean = Math.Sign(sourceNumber.MinValue) = -1
Dim value As String = Convert.ToString(sourceNumber, 16)
Dim targetNumber As UInt64
Try
   targetNumber = Convert.ToUInt64(value, 16)
   If isSigned And ((targetNumber And &H8000000000000000ul) <> 0) Then
      Throw New OverflowException()
   Else 
      Console.WriteLine("0x{0} converts to {1}.", value, targetNumber)
   End If    
Catch e As OverflowException
   Console.WriteLine("Unable to convert '0x{0}' to an unsigned long integer.", _
                     value)
End Try 
' Displays the following to the console:
'    Unable to convert '0x8000' to an unsigned long integer.

ToUInt64(UInt64)

Source:

Convert.cs

Importante

Esta API no es conforme a CLS.

Devuelve el entero de 64 bits sin signo especificado; no se efectúa una conversión real.

public:
 static System::UInt64 ToUInt64(System::UInt64 value);

[System.CLSCompliant(false)]
public static ulong ToUInt64 (ulong value);

[<System.CLSCompliant(false)>]
static member ToUInt64 : uint64 -> uint64

Public Shared Function ToUInt64 (value As ULong) As ULong

Parámetros

value

UInt64

Entero de 64 bits sin signo que se va a devolver.

Devoluciones

UInt64

value se devuelve sin cambios.

Atributos

CLSCompliantAttribute

ToUInt64(SByte)

Source:

Convert.cs

Importante

Esta API no es conforme a CLS.

Convierte el valor del entero de 8 bits con signo especificado en un entero de 64 bits sin signo equivalente.

public:
 static System::UInt64 ToUInt64(System::SByte value);

[System.CLSCompliant(false)]
public static ulong ToUInt64 (sbyte value);

[<System.CLSCompliant(false)>]
static member ToUInt64 : sbyte -> uint64

Public Shared Function ToUInt64 (value As SByte) As ULong

Parámetros

value

SByte

Entero de 8 bits con signo que se va a convertir.

Devoluciones

UInt64

Un entero de 64 bits sin signo equivalente a value.

Atributos

CLSCompliantAttribute

Excepciones

OverflowException

value es menor que cero.

Ejemplos

En el ejemplo siguiente se intenta convertir cada elemento de una matriz de bytes con signo en un entero largo sin signo.

sbyte[] numbers = { SByte.MinValue, -1, 0, 10, SByte.MaxValue };
ulong result;

foreach (sbyte number in numbers)
{
   try {
      result = Convert.ToUInt64(number);
      Console.WriteLine("Converted the {0} value {1} to the {2} value {3}.",
                        number.GetType().Name, number,
                        result.GetType().Name, result);
   }
   catch (OverflowException) {
      Console.WriteLine("The {0} value {1} is outside the range of the UInt64 type.",
                        number.GetType().Name, number);
   }
}
// The example displays the following output:
//    The SByte value -128 is outside the range of the UInt64 type.
//    The SByte value -1 is outside the range of the UInt64 type.
//    Converted the SByte value 0 to the UInt64 value 0.
//    Converted the SByte value 10 to the UInt64 value 10.
//    Converted the SByte value 127 to the UInt64 value 127.

let numbers = [| SByte.MinValue; -1y; 0y; 10y; SByte.MaxValue |]

for number in numbers do
    try
        let result = Convert.ToUInt16 number
        printfn $"Converted the {number.GetType().Name} value '{number}' to the {result.GetType().Name} value {result}."
    with :? OverflowException ->
        printfn $"{number} is outside the range of the UInt64 type."
// The example displays the following output:
//    -128 is outside the range of the UInt64 type.
//    -1 is outside the range of the UInt64 type.
//    Converted the SByte value '0' to the UInt64 value 0.
//    Converted the SByte value '10' to the UInt64 value 10.
//    Converted the SByte value '127' to the UInt64 value 127.

Dim numbers() As SByte = { SByte.MinValue, -1, 0, 10, SByte.MaxValue }
Dim result As ULong

For Each number As SByte In numbers
   Try
      result = Convert.ToUInt64(number)
      Console.WriteLine("Converted the {0} value {1} to the {2} value {3}.", _
                        number.GetType().Name, number, _
                        result.GetType().Name, result)
   Catch e As OverflowException
      Console.WriteLine("The {0} value {1} is outside the range of the UInt64 type.", _
                        number.GetType().Name, number)
   End Try
Next
' The example displays the following output:
'    The SByte value -128 is outside the range of the UInt64 type.
'    The SByte value -1 is outside the range of the UInt64 type.
'    Converted the SByte value 0 to the UInt64 value 0.
'    Converted the SByte value 10 to the UInt64 value 10.
'    Converted the SByte value 127 to the UInt64 value 127.

ToUInt64(Int16)

Source:

Convert.cs

Importante

Esta API no es conforme a CLS.

Convierte el valor del entero de 16 bits con signo especificado en un entero de 64 bits sin signo equivalente.

public:
 static System::UInt64 ToUInt64(short value);

[System.CLSCompliant(false)]
public static ulong ToUInt64 (short value);

[<System.CLSCompliant(false)>]
static member ToUInt64 : int16 -> uint64

Public Shared Function ToUInt64 (value As Short) As ULong

Parámetros

value

Int16

Entero de 16 bits con signo que se va a convertir.

Devoluciones

UInt64

Un entero de 64 bits sin signo equivalente a value.

Atributos

CLSCompliantAttribute

Excepciones

OverflowException

value es menor que cero.

Ejemplos

En el ejemplo siguiente se intenta convertir cada elemento de una matriz de enteros de 16 bits en un entero largo sin signo.

short[] numbers= { Int16.MinValue, -1, 0, 121, 340, Int16.MaxValue };
ulong result;

foreach (short number in numbers)
{
   try {
      result = Convert.ToUInt64(number);
      Console.WriteLine("Converted the {0} value {1} to a {2} value {3}.",
                           number.GetType().Name, number,
                           result.GetType().Name, result);
   }
   catch (OverflowException) {
      Console.WriteLine("{0} is outside the range of the UInt64 type.", number);
   }
}
// The example displays the following output:
//    -32768 is outside the range of the UInt64 type.
//    -1 is outside the range of the UInt64 type.
//    Converted the Int16 value 0 to a UInt64 value 0.
//    Converted the Int16 value 121 to a UInt64 value 121.
//    Converted the Int16 value 340 to a UInt64 value 340.
//    Converted the Int16 value 32767 to a UInt64 value 32767.

let numbers = [| Int16.MinValue; -132s; 0s; 121s; 16103s; Int16.MaxValue |]

for number in numbers do
    try
        let result = Convert.ToUInt16 number
        printfn $"Converted the {number.GetType().Name} value '{number}' to the {result.GetType().Name} value {result}."
    with :? OverflowException ->
        printfn $"The {number.GetType().Name} value {number} is outside the range of the UInt64 type."
// The example displays the following output:
//    The Int16 value -32768 is outside the range of the UInt64 type.
//    The Int16 value -132 is outside the range of the UInt64 type.
//    Converted the Int16 value '0' to the UInt64 value 0.
//    Converted the Int16 value '121' to the UInt64 value 121.
//    Converted the Int16 value '16103' to the UInt64 value 16103.
//    Converted the Int16 value '32767' to the UInt64 value 32767.

Dim numbers() As Short = { Int16.MinValue, -1, 0, 121, 340, Int16.MaxValue }
Dim result As ULong

For Each number As Short In numbers
   Try
      result = Convert.ToUInt64(number)
      Console.WriteLine("Converted the {0} value {1} to the {2} value {3}.", _
                           number.GetType().Name, number, _
                           result.GetType().Name, result)
   Catch e As OverflowException
      Console.WriteLine("The {0} value {1} is outside the range of the UInt64 type.", _
                        number.GetType().Name, number)
   End Try   
Next
' The example displays the following output:
'    The Int16 value -32768 is outside the range of the UInt64 type.
'    The Int16 value -1 is outside the range of the UInt64 type.
'    Converted the Int16 value 0 to the UInt64 value 0.
'    Converted the Int16 value 121 to the UInt64 value 121.
'    Converted the Int16 value 340 to the UInt64 value 340.
'    Converted the Int16 value 32767 to the UInt64 value 32767.

ToUInt64(Int64)

Source:

Convert.cs

Importante

Esta API no es conforme a CLS.

Convierte el valor del entero de 64 bits con signo especificado en un entero de 64 bits sin signo equivalente.

public:
 static System::UInt64 ToUInt64(long value);

[System.CLSCompliant(false)]
public static ulong ToUInt64 (long value);

[<System.CLSCompliant(false)>]
static member ToUInt64 : int64 -> uint64

Public Shared Function ToUInt64 (value As Long) As ULong

Parámetros

value

Int64

Entero de 64 bits con signo que se va a convertir.

Devoluciones

UInt64

Un entero de 64 bits sin signo equivalente a value.

Atributos

CLSCompliantAttribute

Excepciones

OverflowException

value es menor que cero.

Ejemplos

En el ejemplo siguiente se intenta convertir cada elemento de una matriz de enteros largos en un entero largo sin signo.

long[] numbers = { Int64.MinValue, -19432, -18, 0, 121, 340, Int64.MaxValue };
ulong result;
foreach (long number in numbers)
{
   try {
      result = Convert.ToUInt64(number);
      Console.WriteLine("Converted the {0} value {1} to the {2} value {3}.",
                        number.GetType().Name, number,
                        result.GetType().Name, result);
   }
   catch (OverflowException) {
      Console.WriteLine("The {0} value {1} is outside the range of the UInt64 type.",
                        number.GetType().Name, number);
   }
}
// The example displays the following output:
//    The Int64 value -9223372036854775808 is outside the range of the UInt64 type.
//    The Int64 value -19432 is outside the range of the UInt64 type.
//    The Int64 value -18 is outside the range of the UInt64 type.
//    Converted the Int64 value 0 to the UInt64 value 0.
//    Converted the Int64 value 121 to the UInt64 value 121.
//    Converted the Int64 value 340 to the UInt64 value 340.
//    Converted the Int64 value 9223372036854775807 to a UInt64 value 9223372036854775807.

let numbers = [| Int64.MinValue; -1; 0; 121; 340; Int64.MaxValue |]

for number in numbers do
    try
        let result = Convert.ToUInt16 number
        printfn $"Converted the {number.GetType().Name} value '{number}' to the {result.GetType().Name} value {result}."
    with :? OverflowException ->
        printfn "The {number.GetType().Name} value {number} is outside the range of the UInt64 type."
// The example displays the following output:
//    The Int64 value -9223372036854775808 is outside the range of the UInt64 type.
//    The Int64 value -1 is outside the range of the UInt64 type.
//    Converted the Int64 value '0' to the UInt64 value 0.
//    Converted the Int64 value '121' to the UInt64 value 121.
//    Converted the Int64 value '340' to the UInt64 value 340.
//    The Int64 value 9223372036854775807 is outside the range of the UInt64 type.

Dim numbers() As Long = { Int64.MinValue, -19432, -18, 0, 121, 340, Int64.MaxValue }
Dim result As ULong

For Each number As Long In numbers
   Try
      result = Convert.ToUInt64(number)
      Console.WriteLine("Converted the {0} value {1} to the {2} value {3}.", _
                        number.GetType().Name, number, _
                        result.GetType().Name, result)
   Catch e As OverflowException
      Console.WriteLine("The {0} value {1} is outside the range of the UInt64 type.", _
                        number.GetType().Name, number)
   End Try
Next
' The example displays the following output:
'    The Int64 value -9223372036854775808 is outside the range of the UInt64 type.
'    The Int64 value -19432 is outside the range of the UInt64 type.
'    The Int64 value -18 is outside the range of the UInt64 type.
'    Converted the Int64 value 0 to the UInt64 value 0.
'    Converted the Int64 value 121 to the UInt64 value 121.
'    Converted the Int64 value 340 to the UInt64 value 340.
'    Converted the Int64 value 9223372036854775807 to the UInt64 value 9223372036854775807.

ToUInt64(Int32)

Source:

Convert.cs

Importante

Esta API no es conforme a CLS.

Convierte el valor del entero de 32 bits con signo especificado en un entero de 64 bits sin signo equivalente.

public:
 static System::UInt64 ToUInt64(int value);

[System.CLSCompliant(false)]
public static ulong ToUInt64 (int value);

[<System.CLSCompliant(false)>]
static member ToUInt64 : int -> uint64

Public Shared Function ToUInt64 (value As Integer) As ULong

Parámetros

value

Int32

Entero de 32 bits con signo que se va a convertir.

Devoluciones

UInt64

Un entero de 64 bits sin signo equivalente a value.

Atributos

CLSCompliantAttribute

Excepciones

OverflowException

value es menor que cero.

Ejemplos

En el ejemplo siguiente se intenta convertir cada elemento de una matriz de enteros en un entero largo sin signo.

int[] numbers = { Int32.MinValue, -1, 0, 121, 340, Int32.MaxValue };
ulong result;

foreach (int number in numbers)
{
   try {
      result = Convert.ToUInt64(number);
      Console.WriteLine("Converted the {0} value {1} to the {2} value {3}.",
                        number.GetType().Name, number,
                        result.GetType().Name, result);
   }
   catch (OverflowException) {
      Console.WriteLine("The {0} value {1} is outside the range of the UInt64 type.",
                        number.GetType().Name, number);
   }
}
// The example displays the following output:
//    The Int32 value -2147483648 is outside the range of the UInt64 type.
//    The Int32 value -1 is outside the range of the UInt64 type.
//    Converted the Int32 value 0 to the UInt64 value 0.
//    Converted the Int32 value 121 to the UInt64 value 121.
//    Converted the Int32 value 340 to the UInt64 value 340.
//    Converted the Int32 value 2147483647 to the UInt64 value 2147483647.

let numbers = [| Int32.MinValue; -1; 0; 121; 340; Int32.MaxValue |]

for number in numbers do
    try
        let result = Convert.ToUInt16 number
        printfn $"Converted the {number.GetType().Name} value '{number}' to the {result.GetType().Name} value {result}."
    with :? OverflowException ->
        printfn "The {number.GetType().Name} value {number} is outside the range of the UInt64 type."
                        
// The example displays the following output:
//    The Int32 value -2147483648 is outside the range of the UInt64 type.
//    The Int32 value -1 is outside the range of the UInt64 type.
//    Converted the Int32 value '0' to the UInt64 value 0.
//    Converted the Int32 value '121' to the UInt64 value 121.
//    Converted the Int32 value '340' to the UInt64 value 340.
//    The Int32 value 2147483647 is outside the range of the UInt64 type.

Dim numbers() As Integer = { Int32.MinValue, -1, 0, 121, 340, Int32.MaxValue }
Dim result As ULong

For Each number As Integer In numbers
   Try
      result = Convert.ToUInt64(number)
      Console.WriteLine("Converted the {0} value {1} to the {2} value {3}.", _
                        number.GetType().Name, number, _
                        result.GetType().Name, result)
   Catch e As OverflowException
      Console.WriteLine("The {0} value {1} is outside the range of the UInt64 type.", _
                        number.GetType().Name, number)
   End Try   
Next
' The example displays the following output:
'    The Int32 value -2147483648 is outside the range of the UInt64 type.
'    The Int32 value -1 is outside the range of the UInt64 type.
'    Converted the Int32 value 0 to the UInt64 value 0.
'    Converted the Int32 value 121 to the UInt64 value 121.
'    Converted the Int32 value 340 to the UInt64 value 340.
'    Converted the Int32 value 2147483647 to the UInt64 value 2147483647.

ToUInt64(Double)

Source:

Convert.cs

Importante

Esta API no es conforme a CLS.

Convierte el valor del número de punto flotante de precisión doble especificado en un entero de 64 bits sin signo equivalente.

public:
 static System::UInt64 ToUInt64(double value);

[System.CLSCompliant(false)]
public static ulong ToUInt64 (double value);

[<System.CLSCompliant(false)>]
static member ToUInt64 : double -> uint64

Public Shared Function ToUInt64 (value As Double) As ULong

Parámetros

value

Double

Número de punto flotante de precisión doble que se va a convertir.

Devoluciones

UInt64

value, redondeado al entero de 64 bits sin signo más próximo. Si value está en medio de dos números enteros, se devuelve el número par, es decir, 4,5 se convierte en 4 y 5,5 se convierte en 6.

Atributos

CLSCompliantAttribute

Excepciones

OverflowException

value es menor que cero o mayor que UInt64.MaxValue.

Ejemplos

En el ejemplo siguiente se intenta convertir cada elemento de una matriz de Double valores en un entero largo sin signo.

double[] values= { Double.MinValue, -1.38e10, -1023.299, -12.98,
                   0, 9.113e-16, 103.919, 17834.191, Double.MaxValue };
ulong result;

foreach (double value in values)
{
   try {
      result = Convert.ToUInt64(value);
      Console.WriteLine("Converted the {0} value '{1}' to the {2} value {3}.",
                        value.GetType().Name, value,
                        result.GetType().Name, result);
   }
   catch (OverflowException) {
      Console.WriteLine("{0} is outside the range of the UInt64 type.", value);
   }
}
// The example displays the following output:
//    -1.79769313486232E+308 is outside the range of the UInt64 type.
//    -13800000000 is outside the range of the UInt64 type.
//    -1023.299 is outside the range of the UInt64 type.
//    -12.98 is outside the range of the UInt64 type.
//    Converted the Double value '0' to the UInt64 value 0.
//    Converted the Double value '9.113E-16' to the UInt64 value 0.
//    Converted the Double value '103.919' to the UInt64 value 104.
//    Converted the Double value '17834.191' to the UInt64 value 17834.
//    1.79769313486232E+308 is outside the range of the UInt64 type.

let numbers = 
    [| Double.MinValue; -1.38e10; -1023.299; -12.98
       0; 9.113e-16; 103.919; 17834.191; Double.MaxValue |]

for number in numbers do
    try
        let result = Convert.ToUInt16 number
        printfn $"Converted the {number.GetType().Name} value '{number}' to the {result.GetType().Name} value {result}."
    with :? OverflowException ->
        printfn $"{number} is outside the range of the UInt64 type."
// The example displays the following output:
//    -1.79769313486232E+308 is outside the range of the UInt64 type.
//    -13800000000 is outside the range of the UInt64 type.
//    -1023.299 is outside the range of the UInt64 type.
//    -12.98 is outside the range of the UInt64 type.
//    Converted the Double value '0' to the UInt64 value 0.
//    Converted the Double value '9.113E-16' to the UInt64 value 0.
//    Converted the Double value '103.919' to the UInt64 value 104.
//    Converted the Double value '17834.191' to the UInt64 value 17834.
//    1.79769313486232E+308 is outside the range of the UInt64 type.

Dim values() As Double = { Double.MinValue, -1.38e10, -1023.299, -12.98, _
                           0, 9.113e-16, 103.919, 17834.191, Double.MaxValue }
Dim result As ULong

For Each value As Double In values
   Try
      result = Convert.ToUInt64(value)
      Console.WriteLine("Converted the {0} value '{1}' to the {2} value {3}.", _
                        value.GetType().Name, value, _
                        result.GetType().Name, result)
   Catch e As OverflowException
      Console.WriteLine("The {0} value {1} is outside the range of the UInt64 type.", _
                        value.GetType().Name, value)
   End Try   
Next                                 
' The example displays the following output:
'    The Double value -1.79769313486232E+308 is outside the range of the UInt64 type.
'    The Double value -13800000000 is outside the range of the UInt64 type.
'    The Double value -1023.299 is outside the range of the UInt64 type.
'    The Double value -12.98 is outside the range of the UInt64 type.
'    Converted the Double value '0' to the UInt64 value 0.
'    Converted the Double value '9.113E-16' to the UInt64 value 0.
'    Converted the Double value '103.919' to the UInt64 value 104.
'    Converted the Double value '17834.191' to the UInt64 value 17834.
'    The Double value 1.79769313486232E+308 is outside the range of the UInt64 type.

Consulte también

• Double
• Round

ToUInt64(Decimal)

Source:

Convert.cs

Importante

Esta API no es conforme a CLS.

Convierte el valor del número decimal especificado en un entero de 64 bits sin signo equivalente.

public:
 static System::UInt64 ToUInt64(System::Decimal value);

[System.CLSCompliant(false)]
public static ulong ToUInt64 (decimal value);

[<System.CLSCompliant(false)>]
static member ToUInt64 : decimal -> uint64

Public Shared Function ToUInt64 (value As Decimal) As ULong

Parámetros

value

Decimal

Número decimal que se va a convertir.

Devoluciones

UInt64

value, redondeado al entero de 64 bits sin signo más próximo. Si value está en medio de dos números enteros, se devuelve el número par, es decir, 4,5 se convierte en 4 y 5,5 se convierte en 6.

Atributos

CLSCompliantAttribute

Excepciones

OverflowException

value es menor que cero o mayor que UInt64.MaxValue.

Ejemplos

En el ejemplo siguiente se intenta convertir cada elemento de una matriz de Decimal valores en un entero largo sin signo.

decimal[] values= { Decimal.MinValue, -1034.23m, -12m, 0m, 147m,
                    199.55m, 9214.16m, Decimal.MaxValue };
ulong result;

foreach (decimal value in values)
{
   try {
      result = Convert.ToUInt64(value);
      Console.WriteLine("Converted the {0} value '{1}' to the {2} value {3}.",
                        value.GetType().Name, value,
                        result.GetType().Name, result);
   }
   catch (OverflowException) {
      Console.WriteLine("{0} is outside the range of the UInt64 type.",
                        value);
   }
}
// The example displays the following output:
//    -79228162514264337593543950335 is outside the range of the UInt64 type.
//    -1034.23 is outside the range of the UInt64 type.
//    -12 is outside the range of the UInt64 type.
//    Converted the Decimal value '0' to the UInt64 value 0.
//    Converted the Decimal value '147' to the UInt64 value 147.
//    Converted the Decimal value '199.55' to the UInt64 value 200.
//    Converted the Decimal value '9214.16' to the UInt64 value 9214.
//    79228162514264337593543950335 is outside the range of the UInt64 type.

let numbers = 
    [| Decimal.MinValue; -1034.23m; -12m; 0m; 147m; 9214.16m; Decimal.MaxValue |]

for number in numbers do
    try
        let result = Convert.ToUInt16 number
        printfn $"Converted the {number.GetType().Name} value '{number}' to the {result.GetType().Name} value {result}."
    with :? OverflowException ->
        printfn $"{number} is outside the range of the UInt64 type."
// The example displays the following output:
//    -79228162514264337593543950335 is outside the range of the UInt64 type.
//    -1034.23 is outside the range of the UInt64 type.
//    -12 is outside the range of the UInt64 type.
//    Converted the Decimal value '0' to the UInt64 value 0.
//    Converted the Decimal value '147' to the UInt64 value 147.
//    Converted the Decimal value '9214.16' to the UInt64 value 9214.
//    79228162514264337593543950335 is outside the range of the UInt64 type.

Dim values() As Decimal = { Decimal.MinValue, -1034.23d, -12d, 0d, 147d, _
                            199.55d, 9214.16d, Decimal.MaxValue }
Dim result As ULong

For Each value As Decimal In values
   Try
      result = Convert.ToUInt64(value)
      Console.WriteLine("Converted the {0} value '{1}' to the {2} value {3}.", _
                        value.GetType().Name, value, _
                        result.GetType().Name, result)
   Catch e As OverflowException
      Console.WriteLine("The {0} value {1} is outside the range of the UInt64 type.", _
                        value.GetType().Name, value)
   End Try   
Next                                  
' The example displays the following output:
'    The Decimal value -79228162514264337593543950335 is outside the range of the UInt64 type.
'    The Decimal value -1034.23 is outside the range of the UInt64 type.
'    The Decimal value -12 is outside the range of the UInt64 type.
'    Converted the Decimal value '0' to the UInt64 value 0.
'    Converted the Decimal value '147' to the UInt64 value 147.
'    Converted the Decimal value '199.55' to the UInt64 value 200.
'    Converted the Decimal value '9214.16' to the UInt64 value 9214.
'    The Decimal value 79228162514264337593543950335 is outside the range of the UInt64 type.

Consulte también

• Round

ToUInt64(DateTime)

Source:

Convert.cs

Importante

Esta API no es conforme a CLS.

Cuando se llama a este método, siempre se produce InvalidCastException.

public:
 static System::UInt64 ToUInt64(DateTime value);

[System.CLSCompliant(false)]
public static ulong ToUInt64 (DateTime value);

[<System.CLSCompliant(false)>]
static member ToUInt64 : DateTime -> uint64

Public Shared Function ToUInt64 (value As DateTime) As ULong

Parámetros

value

DateTime

Valor de fecha y hora que se va a convertir.

Devoluciones

UInt64

No se admite esta conversión. No se devuelve ningún valor.

Atributos

CLSCompliantAttribute

Excepciones

InvalidCastException

No se admite esta conversión.

ToUInt64(Char)

Source:

Convert.cs

Importante

Esta API no es conforme a CLS.

Convierte el valor del carácter Unicode especificado en un entero de 64 bits sin signo equivalente.

public:
 static System::UInt64 ToUInt64(char value);

[System.CLSCompliant(false)]
public static ulong ToUInt64 (char value);

[<System.CLSCompliant(false)>]
static member ToUInt64 : char -> uint64

Public Shared Function ToUInt64 (value As Char) As ULong

Parámetros

value

Char

Carácter Unicode que se va a convertir.

Devoluciones

UInt64

Un entero de 64 bits sin signo equivalente a value.

Atributos

CLSCompliantAttribute

Ejemplos

En el ejemplo siguiente se convierte cada elemento de una matriz de caracteres en un entero largo sin signo.

char[] chars = { 'a', 'z', '\u0007', '\u03FF',
                 '\u7FFF', '\uFFFE' };
ulong result;

foreach (char ch in chars)
{
   result = Convert.ToUInt64(ch);
   Console.WriteLine("Converted the {0} value '{1}' to the {2} value {3}.",
                     ch.GetType().Name, ch,
                     result.GetType().Name, result);
}
// The example displays the following output:
//    Converted the Char value 'a' to the UInt64 value 97.
//    Converted the Char value 'z' to the UInt64 value 122.
//    Converted the Char value '' to the UInt64 value 7.
//    Converted the Char value '?' to the UInt64 value 1023.
//    Converted the Char value '?' to the UInt64 value 32767.
//    Converted the Char value '?' to the UInt64 value 65534.

let chars = 
    [| 'a'; 'z'; '\u0007'; '\u03FF'; '\u7FFF'; '\uFFFE' |]

for ch in chars do
    try
        let result = Convert.ToUInt16 ch
        printfn $"Converted the {ch.GetType().Name} value '{ch}' to the {result.GetType().Name} value {result}."
    with :? OverflowException ->
        printfn $"Unable to convert u+{int ch:X4} to a UInt16."
// The example displays the following output:
//    Converted the Char value 'a' to the UInt64 value 97.
//    Converted the Char value 'z' to the UInt64 value 122.
//    Converted the Char value '' to the UInt64 value 7.
//    Converted the Char value '?' to the UInt64 value 1023.
//    Converted the Char value '?' to the UInt64 value 32767.
//    Converted the Char value '?' to the UInt64 value 65534.

Dim chars() As Char = { "a"c, "z"c, ChrW(7), ChrW(1023), _
                        ChrW(Short.MaxValue), ChrW(&hFFFE) }
Dim result As ULong
                        
For Each ch As Char in chars
   result = Convert.ToUInt64(ch)
   Console.WriteLine("Converted the {0} value '{1}' to the {2} value {3}.", _
                     ch.GetType().Name, ch, _
                     result.GetType().Name, result)
Next   
' The example displays the following output:
'    Converted the Char value 'a' to the UInt64 value 97.
'    Converted the Char value 'z' to the UInt64 value 122.
'    Converted the Char value '' to the UInt64 value 7.
'    Converted the Char value '?' to the UInt64 value 1023.
'    Converted the Char value '?' to the UInt64 value 32767.
'    Converted the Char value '?' to the UInt64 value 65534.

ToUInt64(Byte)

Source:

Convert.cs

Importante

Esta API no es conforme a CLS.

Convierte el valor del entero de 8 bits sin signo especificado en un entero de 64 bits sin signo equivalente.

public:
 static System::UInt64 ToUInt64(System::Byte value);

[System.CLSCompliant(false)]
public static ulong ToUInt64 (byte value);

[<System.CLSCompliant(false)>]
static member ToUInt64 : byte -> uint64

Public Shared Function ToUInt64 (value As Byte) As ULong

Parámetros

value

Byte

Entero de 8 bits sin signo que se va a convertir.

Devoluciones

UInt64

Un entero de 64 bits con signo equivalente a value.

Atributos

CLSCompliantAttribute

Ejemplos

En el ejemplo siguiente se convierte cada elemento de una matriz de bytes en un entero largo sin signo.

byte[] bytes = { Byte.MinValue, 14, 122, Byte.MaxValue};
ulong result;

foreach (byte byteValue in bytes)
{
   result = Convert.ToUInt64(byteValue);
   Console.WriteLine("Converted the {0} value {1} to the {2} value {3}.",
                     byteValue.GetType().Name, byteValue,
                     result.GetType().Name, result);
}
// The example displays the following output:
//    Converted the Byte value 0 to the UInt64 value 0.
//    Converted the Byte value 14 to the UInt64 value 14.
//    Converted the Byte value 122 to the UInt64 value 122.
//    Converted the Byte value 255 to the UInt64 value 255.

let bytes = [| Byte.MinValue; 14uy; 122uy; Byte.MaxValue |]

for byteValue in bytes do
    let result = Convert.ToUInt16 byteValue
    printfn $"Converted the {byteValue.GetType().Name} value '{byteValue}' to the {result.GetType().Name} value {result}."
// The example displays the following output:
//       Converted the Byte value '0' to the UInt64 value 0.
//       Converted the Byte value '14' to the UInt64 value 14.
//       Converted the Byte value '122' to the UInt64 value 122.
//       Converted the Byte value '255' to the UInt64 value 255.

Dim bytes() As Byte = { Byte.MinValue, 14, 122, Byte.MaxValue}
Dim result As ULong

For Each byteValue As Byte In bytes
   result = Convert.ToUInt64(byteValue)
   Console.WriteLine("Converted the {0} value {1} to the {2} value {3}.", _
                     byteValue.GetType().Name, byteValue, _
                     result.GetType().Name, result)
Next
' The example displays the following output:
'    Converted the Byte value 0 to the UInt64 value 0.
'    Converted the Byte value 14 to the UInt64 value 14.
'    Converted the Byte value 122 to the UInt64 value 122.
'    Converted the Byte value 255 to the UInt64 value 255.

ToUInt64(Boolean)

Source:

Convert.cs

Importante

Esta API no es conforme a CLS.

Convierte el valor booleano especificado en un entero de 64 bits sin signo equivalente.

public:
 static System::UInt64 ToUInt64(bool value);

[System.CLSCompliant(false)]
public static ulong ToUInt64 (bool value);

[<System.CLSCompliant(false)>]
static member ToUInt64 : bool -> uint64

Public Shared Function ToUInt64 (value As Boolean) As ULong

Parámetros

value

Boolean

Valor booleano que se va a convertir.

Devoluciones

UInt64

Número 1 si value es true; en caso contrario, 0.

Atributos

CLSCompliantAttribute

Ejemplos

En el ejemplo siguiente se convierten valores booleanos true y false en enteros largos sin signo.

bool falseFlag = false;
bool trueFlag = true;

Console.WriteLine("{0} converts to {1}.", falseFlag,
                  Convert.ToUInt64(falseFlag));
Console.WriteLine("{0} converts to {1}.", trueFlag,
                  Convert.ToUInt64(trueFlag));
// The example displays the following output:
//       False converts to 0.
//       True converts to 1.

let falseFlag = false
let trueFlag = true

printfn $"{falseFlag} converts to {Convert.ToInt32 falseFlag}."
printfn $"{trueFlag} converts to {Convert.ToInt32 trueFlag}."
// The example displays the following output:
//       False converts to 0.
//       True converts to 1.

Dim falseFlag As Boolean = False
Dim trueFlag As Boolean = True

Console.WriteLine("{0} converts to {1}.", falseFlag, _
                  Convert.ToUInt64(falseFlag))
Console.WriteLine("{0} converts to {1}.", trueFlag, _
                  Convert.ToUInt64(trueFlag))
' The example displays the following output:
'       False converts to 0.
'       True converts to 1.

ToUInt64(Object)

Source:

Convert.cs

Importante

Esta API no es conforme a CLS.

Convierte el valor del objeto especificado en un entero de 64 bits sin signo.

public:
 static System::UInt64 ToUInt64(System::Object ^ value);

[System.CLSCompliant(false)]
public static ulong ToUInt64 (object? value);

[<System.CLSCompliant(false)>]
static member ToUInt64 : obj -> uint64

Public Shared Function ToUInt64 (value As Object) As ULong

Parámetros

value

Object

Objeto que implementa la interfaz IConvertible o null.

Devoluciones

UInt64

Un entero de 64 bits sin signo equivalente a value, o cero si value es null.

Atributos

CLSCompliantAttribute

Excepciones

FormatException

value no tiene un formato adecuado.

InvalidCastException

value no implementa la interfaz IConvertible.

O bien

No se admite la conversión.

OverflowException

value representa un número menor que UInt64.MinValue o mayor que UInt64.MaxValue.

Ejemplos

En el ejemplo siguiente se intenta convertir cada elemento de una matriz de objetos en un entero largo sin signo.

object[] values = { true, -12, 163, 935, 'x', new DateTime(2009, 5, 12),
                    "104", "103.0", "-1",
                    "1.00e2", "One", 1.00e2, 16.3e42};
ulong result;

foreach (object value in values)
{
   try {
      result = Convert.ToUInt64(value);
      Console.WriteLine("Converted the {0} value {1} to the {2} value {3}.",
                        value.GetType().Name, value,
                        result.GetType().Name, result);
   }
   catch (OverflowException) {
      Console.WriteLine("The {0} value {1} is outside the range of the UInt64 type.",
                        value.GetType().Name, value);
   }
   catch (FormatException) {
      Console.WriteLine("The {0} value {1} is not in a recognizable format.",
                        value.GetType().Name, value);
   }
   catch (InvalidCastException) {
      Console.WriteLine("No conversion to a UInt64 exists for the {0} value {1}.",
                        value.GetType().Name, value);
   }
}
// The example displays the following output:
//    Converted the Boolean value True to the UInt64 value 1.
//    The Int32 value -12 is outside the range of the UInt64 type.
//    Converted the Int32 value 163 to the UInt64 value 163.
//    Converted the Int32 value 935 to the UInt64 value 935.
//    Converted the Char value x to the UInt64 value 120.
//    No conversion to a UInt64 exists for the DateTime value 5/12/2009 12:00:00 AM.
//    Converted the String value 104 to the UInt64 value 104.
//    The String value 103.0 is not in a recognizable format.
//    The String value -1 is outside the range of the UInt64 type.
//    The String value 1.00e2 is not in a recognizable format.
//    The String value One is not in a recognizable format.
//    Converted the Double value 100 to the UInt64 value 100.
//    The Double value 1.63E+43 is outside the range of the UInt64 type.

let values: obj[] =
    [| true; -12; 163; 935; 'x'; DateTime(2009, 5, 12)
       "104"; "103.0"; "-1"; "1.00e2"; "One"; 1.00e2 |]

for value in values do
    try
        let result = Convert.ToUInt16 value
        printfn $"Converted the {value.GetType().Name} value '{value}' to the {result.GetType().Name} value {result}."
    with 
    | :? OverflowException ->
        printfn $"The {value.GetType().Name} value {value} is outside the range of the UInt64 type."
    | :? FormatException ->
        printfn $"The {value.GetType().Name} value {value} is not in a recognizable format."
    | :? InvalidCastException ->
        printfn $"No conversion to a UInt16 exists for the {value.GetType().Name} value {value}."
// The example displays the following output:
//    Converted the Boolean value 'True' to the UInt64 value 1.
//    The Int32 value -12 is outside the range of the UInt64 type.
//    Converted the Int32 value '163' to the UInt64 value 163.
//    Converted the Int32 value '935' to the UInt64 value 935.
//    Converted the Char value 'x' to the UInt64 value 120.
//    No conversion to a UInt16 exists for the DateTime value 5/12/2009 12:00:00 AM.
//    Converted the String value '104' to the UInt64 value 104.
//    The String value 103.0 is not in a recognizable format.
//    The String value -1 is outside the range of the UInt64 type.
//    The String value 1.00e2 is not in a recognizable format.
//    The String value One is not in a recognizable format.
//    Converted the Double value '100' to the UInt64 value 100.

Dim values() As Object = { True, -12, 163, 935, "x"c, #5/12/2009#, _
                           "104", "103.0", "-1", _
                           "1.00e2", "One", 1.00e2, 16.3e42}
Dim result As ULong

For Each value As Object In values
   Try
      result = Convert.ToUInt64(value)
      Console.WriteLine("Converted the {0} value {1} to the {2} value {3}.", _
                        value.GetType().Name, value, _
                        result.GetType().Name, result)
   Catch e As OverflowException
      Console.WriteLine("The {0} value {1} is outside the range of the UInt64 type.", _
                        value.GetType().Name, value)
   Catch e As FormatException
      Console.WriteLine("The {0} value {1} is not in a recognizable format.", _
                        value.GetType().Name, value)
   Catch e As InvalidCastException
      Console.WriteLine("No conversion to a UInt64 exists for the {0} value {1}.", _
                        value.GetType().Name, value)
                        
   End Try
Next                           
' The example displays the following output:
'    Converted the Boolean value True to the UInt64 value 1.
'    The Int32 value -12 is outside the range of the UInt64 type.
'    Converted the Int32 value 163 to the UInt64 value 163.
'    Converted the Int32 value 935 to the UInt64 value 935.
'    Converted the Char value x to the UInt64 value 120.
'    No conversion to a UInt64 exists for the DateTime value 5/12/2009 12:00:00 AM.
'    Converted the String value 104 to the UInt64 value 104.
'    The String value 103.0 is not in a recognizable format.
'    The String value -1 is outside the range of the UInt64 type.
'    The String value 1.00e2 is not in a recognizable format.
'    The String value One is not in a recognizable format.
'    Converted the Double value 100 to the UInt64 value 100.
'    The Double value 1.63E+43 is outside the range of the UInt64 type.

Comentarios

El valor devuelto es el resultado de invocar el IConvertible.ToUInt64 método del tipo subyacente de value.