String.Intern(String) String.Intern(String) String.Intern(String) String.Intern(String) Method


Retrieves the system's reference to the specified String.

 static System::String ^ Intern(System::String ^ str);
public static string Intern (string str);
static member Intern : string -> string
Public Shared Function Intern (str As String) As String


String String String String

A string to search for in the intern pool.


The system's reference to str, if it is interned; otherwise, a new reference to a string with the value of str.



The following example uses three strings that are equal in value to determine whether a newly created string and an interned string are equal.

// Sample for String::Intern(String)
using namespace System;
using namespace System::Text;
int main()
   String^ s1 = "MyTest";
   String^ s2 = (gcnew StringBuilder)->Append( "My" )->Append( "Test" )->ToString();
   String^ s3 = String::Intern( s2 );
   Console::WriteLine( "s1 == '{0}'", s1 );
   Console::WriteLine( "s2 == '{0}'", s2 );
   Console::WriteLine( "s3 == '{0}'", s3 );
   Console::WriteLine( "Is s2 the same reference as s1?: {0}", s2 == s1 );
   Console::WriteLine( "Is s3 the same reference as s1?: {0}", s3 == s1 );

This example produces the following results:
s1 == 'MyTest'
s2 == 'MyTest'
s3 == 'MyTest'
Is s2 the same reference as s1?: False
Is s3 the same reference as s1?: True
// Sample for String.Intern(String)
using System;
using System.Text;

class Sample {
    public static void Main() {
    String s1 = "MyTest";
    String s2 = new StringBuilder().Append("My").Append("Test").ToString(); 
    String s3 = String.Intern(s2); 
    Console.WriteLine("s1 == '{0}'", s1);
    Console.WriteLine("s2 == '{0}'", s2);
    Console.WriteLine("s3 == '{0}'", s3);
    Console.WriteLine("Is s2 the same reference as s1?: {0}", (Object)s2==(Object)s1); 
    Console.WriteLine("Is s3 the same reference as s1?: {0}", (Object)s3==(Object)s1);
This example produces the following results:
s1 == 'MyTest'
s2 == 'MyTest'
s3 == 'MyTest'
Is s2 the same reference as s1?: False
Is s3 the same reference as s1?: True
' Sample for String.Intern(String)
Imports System
Imports System.Text

Class Sample
   Public Shared Sub Main()
      Dim s1 As [String] = "MyTest"
      Dim s2 As [String] = New StringBuilder().Append("My").Append("Test").ToString()
      Dim s3 As [String] = [String].Intern(s2)
      Console.WriteLine("s1 = '{0}'", s1)
      Console.WriteLine("s2 = '{0}'", s2)
      Console.WriteLine("s3 = '{0}'", s3)
      Console.WriteLine("Is s2 the same reference as s1?: {0}", s2 Is s1)
      Console.WriteLine("Is s3 the same reference as s1?: {0}", s3 Is s1)
   End Sub 'Main
End Class 'Sample
's1 = 'MyTest'
's2 = 'MyTest'
's3 = 'MyTest'
'Is s2 the same reference as s1?: False
'Is s3 the same reference as s1?: True


The common language runtime conserves string storage by maintaining a table, called the intern pool, that contains a single reference to each unique literal string declared or created programmatically in your program. Consequently, an instance of a literal string with a particular value only exists once in the system.

For example, if you assign the same literal string to several variables, the runtime retrieves the same reference to the literal string from the intern pool and assigns it to each variable.

The Intern method uses the intern pool to search for a string equal to the value of str. If such a string exists, its reference in the intern pool is returned. If the string does not exist, a reference to str is added to the intern pool, then that reference is returned.

In the following example, the string s1, which has a value of "MyTest", is already interned because it is a literal in the program. The System.Text.StringBuilder class generates a new string object that has the same value as s1. A reference to that string is assigned to s2. The Intern method searches for a string that has the same value as s2. Because such a string exists, the method returns the same reference that is assigned to s1. That reference is then assigned to s3. References s1 and s2 compare unequal because they refer to different objects; references s1 and s3 compare equal because they refer to the same string.

string s1 = "MyTest"; 
string s2 = new StringBuilder().Append("My").Append("Test").ToString(); 
string s3 = String.Intern(s2); 
Console.WriteLine((Object)s2==(Object)s1); // Different references.
Console.WriteLine((Object)s3==(Object)s1); // The same reference.
Dim s1 As String = "MyTest" 
Dim s2 As String = New StringBuilder().Append("My").Append("Test").ToString() 
Dim s3 As String = String.Intern(s2) 
Console.WriteLine(CObj(s2) Is CObj(s1))      ' Different references.
Console.WriteLine(CObj(s3) Is CObj(s1))      ' The same reference.

Compare this method to the IsInterned method.

Version Considerations

In the .NET Framework 3.5 Service Pack 1, the Intern method reverts to its behavior in the .NET Framework 1.0 and 1.1 with regard to interning the empty string. In the following example, the variable str1 is assigned a reference to Empty, and the variable str2 is assigned the reference to Empty that is returned by calling the Intern method after converting a StringBuilder object whose value is Empty to a string. Then the references contained in str1 and str2 are compared for equality.

string str1 = String.Empty;
string str2 = String.Empty;

StringBuilder sb = new StringBuilder().Append(String.Empty);
str2 = String.Intern(sb.ToString());	

	Console.WriteLine("The strings are equal.");
	Console.WriteLine("The strings are not equal.");
Dim str1 As String = String.Empty
Dim str2 As String = String.Empty

Dim sb As StringBuilder = New StringBuilder().Append(String.Empty)
str2 = String.Intern(sb.ToString())	

If CObj(str1) Is CObj(str2) Then
	Console.WriteLine("The strings are equal.")
	Console.WriteLine("The strings are not equal.")
End If	

In the .NET Framework 1.0, .NET Framework 1.1, and .NET Framework 3.5 SP1, str1 and str2 are equal. In the .NET Framework 2.0 Service Pack 1 and .NET Framework 3.0, str1 and str2 are not equal.

Performance Considerations

If you are trying to reduce the total amount of memory your application allocates, keep in mind that interning a string has two unwanted side effects. First, the memory allocated for interned String objects is not likely to be released until the common language runtime (CLR) terminates. The reason is that the CLR's reference to the interned String object can persist after your application, or even your application domain, terminates. Second, to intern a string, you must first create the string. The memory used by the String object must still be allocated, even though the memory will eventually be garbage collected.

The .NET Framework version 2.0 introduces the CompilationRelaxations.NoStringInterning enumeration member. The NoStringInterning member marks an assembly as not requiring string-literal interning. You can apply NoStringInterning to an assembly using the CompilationRelaxationsAttribute attribute. Also, when you use the Ngen.exe (Native Image Generator) to compile an assembly in advance of run time, strings are not interned across modules.

Applies to

See also