RegistryKey.GetValueKind(String) Metodo
Definizione
Importante
Alcune informazioni sono relative alla release non definitiva del prodotto, che potrebbe subire modifiche significative prima della release definitiva. Microsoft non riconosce alcuna garanzia, espressa o implicita, in merito alle informazioni qui fornite.
Recupera il tipo di dati del Registro di sistema del valore associato al nome specificato.
public:
Microsoft::Win32::RegistryValueKind GetValueKind(System::String ^ name);
public Microsoft.Win32.RegistryValueKind GetValueKind (string name);
public Microsoft.Win32.RegistryValueKind GetValueKind (string? name);
[System.Runtime.InteropServices.ComVisible(false)]
public Microsoft.Win32.RegistryValueKind GetValueKind (string name);
member this.GetValueKind : string -> Microsoft.Win32.RegistryValueKind
[<System.Runtime.InteropServices.ComVisible(false)>]
member this.GetValueKind : string -> Microsoft.Win32.RegistryValueKind
Public Function GetValueKind (name As String) As RegistryValueKind
Parametri
- name
- String
Nome del valore il cui tipo di dati del Registro di sistema deve essere recuperato. Stringa senza distinzione tra maiuscole e minuscole.
Restituisce
Tipo di dati del Registro di sistema del valore associato a name
.
- Attributi
Eccezioni
L'utente non dispone dell'autorizzazione richiesta per la lettura dalla chiave del Registro di sistema.
La chiave RegistryKey contenente il valore specificato è chiusa, pertanto non è possibile accedere ad essa.
La sottochiave contenente il valore specificato non esiste.
-oppure-
La coppia nome/valore specificata da name
non esiste.
L'utente non dispone dei necessari diritti relativi al Registro di sistema.
Esempio
Nell'esempio di codice seguente viene creata una chiave di test e vengono aggiunti valori di tipi di dati diversi alla chiave. L'esempio legge quindi le coppie nome/valore e le visualizza nella console, usando il GetValueKind metodo per recuperare i tipi di dati del Registro di sistema corrispondenti.
using namespace System;
using namespace Microsoft::Win32;
int main()
{
// Delete and recreate the test key.
Registry::CurrentUser->DeleteSubKey( "RegistryValueKindExample", false );
RegistryKey ^ rk = Registry::CurrentUser->CreateSubKey( "RegistryValueKindExample" );
// Create name/value pairs.
// This overload supports QWord (long) values.
rk->SetValue( "QuadWordValue", 42, RegistryValueKind::QWord );
// The following SetValue calls have the same effect as using the
// SetValue overload that does not specify RegistryValueKind.
//
rk->SetValue( "DWordValue", 42, RegistryValueKind::DWord );
rk->SetValue( "MultipleStringValue", gcnew array<String^>{
"One","Two","Three"
}, RegistryValueKind::MultiString );
rk->SetValue( "BinaryValue", gcnew array<Byte>{
10,43,44,45,14,255
}, RegistryValueKind::Binary );
rk->SetValue( "StringValue", "The path is %PATH%", RegistryValueKind::String );
// This overload supports setting expandable string values. Compare
// the output from this value with the previous string value.
rk->SetValue( "ExpandedStringValue", "The path is %PATH%", RegistryValueKind::ExpandString );
// Display all the name/value pairs stored in the test key, with the
// registry data type in parentheses.
//
array<String^>^valueNames = rk->GetValueNames();
System::Collections::IEnumerator^ myEnum = valueNames->GetEnumerator();
while ( myEnum->MoveNext() )
{
String^ s = safe_cast<String^>(myEnum->Current);
RegistryValueKind rvk = rk->GetValueKind( s );
switch ( rvk )
{
case RegistryValueKind::MultiString:
{
array<String^>^values = (array<String^>^)rk->GetValue( s );
Console::Write( "\r\n {0} ({1}) =", s, rvk );
for ( int i = 0; i < values->Length; i++ )
{
if (i != 0) Console::Write(",");
Console::Write( " \"{0}\"", values[ i ] );
}
Console::WriteLine();
break;
}
case RegistryValueKind::Binary:
{
array<Byte>^bytes = (array<Byte>^)rk->GetValue( s );
Console::Write( "\r\n {0} ({1}) =", s, rvk );
for ( int i = 0; i < bytes->Length; i++ )
{
// Display each byte as two hexadecimal digits.
Console::Write( " {0:X2}", bytes[ i ] );
}
Console::WriteLine();
break;
}
default:
Console::WriteLine( "\r\n {0} ({1}) = {2}", s, rvk, rk->GetValue( s ) );
break;
}
}
}
/*
This code example produces the following output:
QuadWordValue (QWord) = 42
DWordValue (DWord) = 42
MultipleStringValue (MultiString) =, "One", "Two", "Three"
BinaryValue (Binary) = 0A 2B 2C 2D 0E FF
StringValue (String) = The path is %PATH%
ExpandedStringValue (ExpandString) = The path is C:\Program Files\Microsoft.NET\SDK\v2.0\Bin;
[***The remainder of this output is omitted.***]
*/
using System;
using Microsoft.Win32;
public class Example
{
public static void Main()
{
// Delete and recreate the test key.
Registry.CurrentUser.DeleteSubKey("RegistryValueKindExample", false);
RegistryKey rk = Registry.CurrentUser.CreateSubKey("RegistryValueKindExample");
// Create name/value pairs.
// This overload supports QWord (long) values.
rk.SetValue("QuadWordValue", 42, RegistryValueKind.QWord);
// The following SetValue calls have the same effect as using the
// SetValue overload that does not specify RegistryValueKind.
//
rk.SetValue("DWordValue", 42, RegistryValueKind.DWord);
rk.SetValue("MultipleStringValue", new string[] {"One", "Two", "Three"}, RegistryValueKind.MultiString);
rk.SetValue("BinaryValue", new byte[] {10, 43, 44, 45, 14, 255}, RegistryValueKind.Binary);
rk.SetValue("StringValue", "The path is %PATH%", RegistryValueKind.String);
// This overload supports setting expandable string values. Compare
// the output from this value with the previous string value.
rk.SetValue("ExpandedStringValue", "The path is %PATH%", RegistryValueKind.ExpandString);
// Display all name/value pairs stored in the test key, with each
// registry data type in parentheses.
//
string[] valueNames = rk.GetValueNames();
foreach (string s in valueNames)
{
RegistryValueKind rvk = rk.GetValueKind(s);
switch (rvk)
{
case RegistryValueKind.MultiString :
string[] values = (string[]) rk.GetValue(s);
Console.Write("\r\n {0} ({1}) =", s, rvk);
for (int i = 0; i < values.Length; i++)
{
if (i != 0) Console.Write(",");
Console.Write(" \"{0}\"", values[i]);
}
Console.WriteLine();
break;
case RegistryValueKind.Binary :
byte[] bytes = (byte[]) rk.GetValue(s);
Console.Write("\r\n {0} ({1}) =", s, rvk);
for (int i = 0; i < bytes.Length; i++)
{
// Display each byte as two hexadecimal digits.
Console.Write(" {0:X2}", bytes[i]);
}
Console.WriteLine();
break;
default :
Console.WriteLine("\r\n {0} ({1}) = {2}", s, rvk, rk.GetValue(s));
break;
}
}
}
}
/*
This code example produces the following output:
QuadWordValue (QWord) = 42
DWordValue (DWord) = 42
MultipleStringValue (MultiString) =, "One", "Two", "Three"
BinaryValue (Binary) = 0A 2B 2C 2D 0E FF
StringValue (String) = The path is %PATH%
ExpandedStringValue (ExpandString) = The path is C:\Program Files\Microsoft.NET\SDK\v2.0\Bin;
[***The remainder of this output is omitted.***]
*/
Imports Microsoft.Win32
Public Class Example
Public Shared Sub Main()
' Delete and recreate the test key.
Registry.CurrentUser.DeleteSubKey("RegistryValueKindExample", False)
Dim rk As RegistryKey = Registry.CurrentUser.CreateSubKey("RegistryValueKindExample")
' Create name/value pairs.
' This overload supports QWord (long) values.
rk.SetValue("QuadWordValue", 42, RegistryValueKind.QWord)
' The following SetValue calls have the same effect as using the
' SetValue overload that does not specify RegistryValueKind.
'
rk.SetValue("DWordValue", 42, RegistryValueKind.DWord)
rk.SetValue("MultipleStringValue", New String() {"One", "Two", "Three"}, RegistryValueKind.MultiString)
rk.SetValue("BinaryValue", New Byte() {10, 43, 44, 45, 14, 255}, RegistryValueKind.Binary)
rk.SetValue("StringValue", "The path is %PATH%", RegistryValueKind.String)
' This overload supports setting expandable string values. Compare
' the output from this value with the previous string value.
rk.SetValue("ExpandedStringValue", "The path is %PATH%", RegistryValueKind.ExpandString)
' Display all name/value pairs stored in the test key, with each
' registry data type in parentheses.
'
Dim valueNames As String() = rk.GetValueNames()
Dim s As String
For Each s In valueNames
Dim rvk As RegistryValueKind = rk.GetValueKind(s)
Select Case rvk
Case RegistryValueKind.MultiString
Dim values As String() = CType(rk.GetValue(s), String())
Console.Write(vbCrLf & " {0} ({1}) =", s, rvk)
For i As Integer = 0 To values.Length - 1
If i <> 0 Then Console.Write(",")
Console.Write(" ""{0}""", values(i))
Next i
Console.WriteLine()
Case RegistryValueKind.Binary
Dim bytes As Byte() = CType(rk.GetValue(s), Byte())
Console.Write(vbCrLf & " {0} ({1}) =", s, rvk)
For i As Integer = 0 To bytes.Length - 1
' Display each byte as two hexadecimal digits.
Console.Write(" {0:X2}", bytes(i))
Next i
Console.WriteLine()
Case Else
Console.WriteLine(vbCrLf & " {0} ({1}) = {2}", s, rvk, rk.GetValue(s))
End Select
Next s
End Sub
End Class
'
'This code example produces the following output (some output is omitted):
'
' QuadWordValue (QWord) = 42
'
' DWordValue (DWord) = 42
'
' MultipleStringValue (MultiString) = "One", "Two", "Three"
'
' BinaryValue (Binary) = 0A 2B 2C 2D 0E FF
'
' StringValue (String) = The path is %PATH%
'
' ExpandedStringValue (ExpandString) = The path is C:\Program Files\Microsoft.NET\SDK\v2.0\Bin;
' [***The remainder of this output is omitted.***]
Commenti
Nota
Una chiave del Registro di sistema può avere un valore non associato ad alcun nome. Quando questo valore senza nome viene visualizzato nell'editor del Registro di sistema, la stringa "(Default)" viene visualizzata anziché un nome. Per recuperare il tipo di dati del Registro di sistema di questo valore senza nome, specificare null
o la stringa vuota ("") per name
.
Per una descrizione dei tipi di dati del Registro di sistema supportati, vedere l'enumerazione RegistryValueKind .