What's new for Visual Basic
This article lists key feature names for each version of Visual Basic, with detailed descriptions of the new and enhanced features in the latest versions of the language.
Current version
Visual Basic 16.9 / Visual Studio 2019 version 16.9
For new features, see Visual Basic 16.9.
You can download the latest .NET SDK from the .NET downloads page.
Previous versions
Visual Basic 16.0 / Visual Studio 2019 version 16.0
For new features, see Visual Basic 16.0.
Visual Basic 15.5 / Visual Studio 2017 version 15.5
For new features, see Visual Basic 15.5.
Visual Basic 15.3 / Visual Studio 2017 version 15.3
For new features, see Visual Basic 15.3.
Visual Basic 15 / Visual Studio 2017
For new features, see Visual Basic 2017.
Visual Basic / Visual Studio 2015
For new features, see Visual Basic 14.
Visual Basic / Visual Studio 2013
Technology previews of the .NET Compiler Platform ("Roslyn")
Visual Basic / Visual Studio 2012
Async
and await
keywords, iterators, caller info attributes
Visual Basic, Visual Studio 2010
Auto-implemented properties, collection initializers, implicit line continuation, dynamic, generic co/contra variance, global namespace access
Visual Basic / Visual Studio 2008
Language Integrated Query (LINQ), XML literals, local type inference, object initializers, anonymous types, extension methods, local var
type inference, lambda expressions, if
operator, partial methods, nullable value types
Visual Basic / Visual Studio 2005
The My
type and helper types (access to app, computer, files system, network)
Visual Basic / Visual Studio .NET 2003
Bit-shift operators, loop variable declaration
Visual Basic / Visual Studio .NET 2002
The first release of Visual Basic .NET
Visual Basic 16.9
Visual Basic 16.9 enables consumption of init-only properties.
Visual Basic 16.0
Visual Basic 16.0 focuses on supplying more of the features of the Visual Basic Runtime (microsoft.visualbasic.dll) to .NET Core and is the first version of Visual Basic focused on .NET Core. Many portions of the Visual Basic Runtime depend on WinForms and these will be added in a later version of Visual Basic.
Comments allowed in more places within statements
In Visual Basic 15.8 and earlier versions, comments are only allowed on blank lines, at the end of a statement, or in specific places within a statement where an implicit line continuation is allowed. Starting with Visual Basic 16.0, comments are also allowed after explicit line continuations and within a statement on a line beginning with a space followed by an underscore.
Public Sub Main()
cmd.CommandText = ' Comment is allowed here without _
"SELECT * FROM Titles JOIN Publishers " _ ' This is a comment
& "ON Publishers.PubId = Titles.PubID " _
_ ' This is a comment on a line without code
& "WHERE Publishers.State = 'CA'"
End Sub
Optimized floating-point to integer conversion
In previous versions of Visual Basic, conversion of Double and Single values to integers offered relatively poor performance. Visual Basic 15.8 significantly enhances the performance of floating-point conversions to integers when you pass the value returned by any of the following methods to one of the intrinsic Visual Basic integer conversion functions (CByte, CShort, CInt, CLng, CSByte, CUShort, CUInt, CULng), or when the value returned by any of the following methods is implicitly cast to an integral type when Option Strict is set to Off
:
- Conversion.Fix(Double)
- Conversion.Fix(Object)
- Conversion.Fix(Single)
- Conversion.Int(Double)
- Conversion.Int(Object)
- Conversion.Int(Single)
- Math.Ceiling(Double)
- Math.Floor(Double)
- Math.Round(Double)
- Math.Truncate(Double)
This optimization allows code to run faster -- up to twice as fast for code that does a large number of conversions to integer types. The following example illustrates some simple method calls that are affected by this optimization:
Dim s As Single = 173.7619
Dim d As Double = s
Dim i1 As Integer = CInt(Fix(s)) ' Result: 173
Dim b1 As Byte = CByte(Int(d)) ' Result: 173
Dim s1 AS Short = CShort(Math.Truncate(s)) ' Result: 173
Dim i2 As Integer = CInt(Math.Ceiling(d)) ' Result: 174
Dim i3 As Integer = CInt(Math.Round(s)) ' Result: 174
Note that this truncates rather than rounds floating-point values.
Visual Basic 15.5
In Visual Basic 15.3 and earlier versions, when a method call included arguments both by position and by name, positional arguments had to precede named arguments. Starting with Visual Basic 15.5, positional and named arguments can appear in any order as long as all arguments up to the last positional argument are in the correct position. This is particularly useful when named arguments are used to make code more readable.
For example, the following method call has two positional arguments between a named argument. The named argument makes it clear that the value 19 represents an age.
StudentInfo.Display("Mary", age:=19, #9/21/1998#)
Private Protected
member access modifier
This new keyword combination defines a member that is accessible by all members in its containing class as well as by types derived from the containing class, but only if they are also found in the containing assembly. Because structures cannot be inherited, Private Protected
can only be applied to the members of a class.
Leading hex/binary/octal separator
Visual Basic 2017 added support for the underscore character (_
) as a digit separator. Starting with Visual Basic 15.5, you can use the underscore character as a leading separator between the prefix and hexadecimal, binary, or octal digits. The following example uses a leading digit separator to define 3,271,948,384 as a hexadecimal number:
Dim number As Integer = &H_C305_F860
To use the underscore character as a leading separator, you must add the following element to your Visual Basic project (*.vbproj) file:
<PropertyGroup>
<LangVersion>15.5</LangVersion>
</PropertyGroup>
Visual Basic 15.3
When you assign the value of tuple elements from variables, Visual Basic infers the name of tuple elements from the corresponding variable names; you do not have to explicitly name a tuple element. The following example uses inference to create a tuple with three named elements, state
, stateName
, and capital
.
Const state As String = "MI"
Const stateName As String = "Michigan"
Const capital As String = "Lansing"
Dim stateInfo = (state, stateName, capital)
Console.WriteLine($"{stateInfo.stateName}: 2-letter code: {stateInfo.State}, Capital {stateInfo.capital}")
' The example displays the following output:
' Michigan: 2-letter code: MI, Capital Lansing
Additional compiler switches
The Visual Basic command-line compiler now supports the -refout and -refonly compiler options to control the output of reference assemblies. -refout defines the output directory of the reference assembly, and -refonly specifies that only a reference assembly is to be output by compilation.
Visual Basic 15
Tuples are a lightweight data structure that most commonly is used to return multiple values from a single method call. Ordinarily, to return multiple values from a method, you have to do one of the following:
Define a custom type (a
Class
or aStructure
). This is a heavyweight solution.Define one or more
ByRef
parameters, in addition to returning a value from the method.
Visual Basic's support for tuples lets you quickly define a tuple, optionally assign semantic names to its values, and quickly retrieve its values. The following example wraps a call to the TryParse method and returns a tuple.
Imports System.Globalization
Public Module NumericLibrary
Public Function ParseInteger(value As String) As (Success As Boolean, Number As Integer)
Dim number As Integer
Return (Integer.TryParse(value, NumberStyles.Any, CultureInfo.InvariantCulture, number), number)
End Function
End Module
You can then call the method and handle the returned tuple with code like the following.
Dim numericString As String = "123,456"
Dim result = ParseInteger(numericString)
Console.WriteLine($"{If(result.Success, $"Success: {result.Number:N0}", "Failure")}")
Console.ReadLine()
' Output: Success: 123,456
Binary literals and digit separators
You can define a binary literal by using the prefix &B
or &b
. In addition, you can use the underscore character, _
, as a digit separator to enhance readability. The following example uses both features to assign a Byte
value and to display it as a decimal, hexadecimal, and binary number.
Dim value As Byte = &B0110_1110
Console.WriteLine($"{NameOf(value)} = {value} (hex: 0x{value:X2}) " +
$"(binary: {Convert.ToString(value, 2)})")
' The example displays the following output:
' value = 110 (hex: 0x6E) (binary: 1101110)
For more information, see the "Literal assignments" section of the Byte, Integer, Long, Short, SByte, UInteger, ULong, and UShort data types.
Support for C# reference return values
C# supports reference return values. That is, when the calling method receives a value returned by reference, it can change the value of the reference. Visual Basic does not allow you to author methods with reference return values, but it does allow you to consume and modify the reference return values.
For example, the following Sentence
class written in C# includes a FindNext
method that finds the next word in a sentence that begins with a specified substring. The string is returned as a reference return value, and a Boolean
variable passed by reference to the method indicates whether the search was successful. This means that in addition to reading the returned value, the caller can also modify it, and that modification is reflected in the Sentence
class.
using System;
public class Sentence
{
private string[] words;
private int currentSearchPointer;
public Sentence(string sentence)
{
words = sentence.Split(' ');
currentSearchPointer = -1;
}
public ref string FindNext(string startWithString, ref bool found)
{
for (int count = currentSearchPointer + 1; count < words.Length; count++)
{
if (words[count].StartsWith(startWithString))
{
currentSearchPointer = count;
found = true;
return ref words[currentSearchPointer];
}
}
currentSearchPointer = -1;
found = false;
return ref words[0];
}
public string GetSentence()
{
string stringToReturn = null;
foreach (var word in words)
stringToReturn += $"{word} ";
return stringToReturn.Trim();
}
}
In its simplest form, you can modify the word found in the sentence by using code like the following. Note that you are not assigning a value to the method, but rather to the expression that the method returns, which is the reference return value.
Dim sentence As New Sentence("A time to see the world is now.")
Dim found = False
sentence.FindNext("A", found) = "A good"
Console.WriteLine(sentence.GetSentence())
' The example displays the following output:
' A good time to see the world is now.
A problem with this code, though, is that if a match is not found, the method returns the first word. Since the example does not examine the value of the Boolean
argument to determine whether a match is found, it modifies the first word if there is no match. The following example corrects this by replacing the first word with itself if there is no match.
Dim sentence As New Sentence("A time to see the world is now.")
Dim found = False
sentence.FindNext("A", found) = IIf(found, "A good", sentence.FindNext("B", found))
Console.WriteLine(sentence.GetSentence())
' The example displays the following output:
' A good time to see the world is now.
A better solution is to use a helper method to which the reference return value is passed by reference. The helper method can then modify the argument passed to it by reference. The following example does that.
Module Example
Public Sub Main()
Dim sentence As New Sentence("A time to see the world is now.")
Dim found = False
Dim returns = RefHelper(sentence.FindNext("A", found), "A good", found)
Console.WriteLine(sentence.GetSentence())
End Sub
Private Function RefHelper(ByRef stringFound As String, replacement As String, success As Boolean) _
As (originalString As String, found As Boolean)
Dim originalString = stringFound
If found Then stringFound = replacement
Return (originalString, found)
End Function
End Module
' The example displays the following output:
' A good time to see the world is now.
For more information, see Reference Return Values.
Visual Basic 14
You can get the unqualified string name of a type or member for use in an error message without hard coding a string. This allows your code to remain correct when refactoring. This feature is also useful for hooking up model-view-controller MVC links and firing property changed events.
You can use string interpolation expressions to construct strings. An interpolated string expression looks like a template string that contains expressions. An interpolated string is easier to understand with respect to arguments than Composite Formatting.
Null-conditional member access and indexing
You can test for null in a very light syntactic way before performing a member access (?.
) or index (?[]
) operation. These operators help you write less code to handle null checks, especially for descending into data structures. If the left operand or object reference is null, the operations returns null.
String literals can contain newline sequences. You no longer need the old work around of using <xml><![CDATA[...text with newlines...]]></xml>.Value
Comments
You can put comments after implicit line continuations, inside initializer expressions, and among LINQ expression terms.
Smarter fully-qualified name resolution
Given code such as Threading.Thread.Sleep(1000)
, Visual Basic used to look up the namespace "Threading", discover it was ambiguous between System.Threading and System.Windows.Threading, and then report an error. Visual Basic now considers both possible namespaces together. If you show the completion list, the Visual Studio editor lists members from both types in the completion list.
Year-first date literals
You can have date literals in yyyy-mm-dd format, #2015-03-17 16:10 PM#
.
Readonly interface properties
You can implement readonly interface properties using a readwrite property. The interface guarantees minimum functionality, and it does not stop an implementing class from allowing the property to be set.
For more readability of your code, you can now use TypeOf
with IsNot
.
#Disable Warning <ID> and #Enable Warning <ID>
You can disable and enable specific warnings for regions within a source file.
XML doc comment improvements
When writing doc comments, you get smart editor and build support for validating parameter names, proper handling of crefs
(generics, operators, etc.), colorizing, and refactoring.
Partial module and interface definitions
In addition to classes and structs, you can declare partial modules and interfaces.
#Region directives inside method bodies
You can put #Region…#End Region delimiters anywhere in a file, inside functions, and even spanning across function bodies.
Overrides definitions are implicitly overloads
If you add the Overrides
modifier to a definition, the compiler implicitly adds Overloads
so that you can type less code in common cases.
CObj allowed in attributes arguments
The compiler used to give an error that CObj(…) was not a constant when used in attribute constructions.
Declaring and consuming ambiguous methods from different interfaces
Previously the following code yielded errors that prevented you from declaring IMock
or from calling GetDetails
(if these had been declared in C#):
Interface ICustomer
Sub GetDetails(x As Integer)
End Interface
Interface ITime
Sub GetDetails(x As String)
End Interface
Interface IMock : Inherits ICustomer, ITime
Overloads Sub GetDetails(x As Char)
End Interface
Interface IMock2 : Inherits ICustomer, ITime
End Interface
Now the compiler will use normal overload resolution rules to choose the most appropriate GetDetails
to call, and you can declare interface relationships in Visual Basic like those shown in the sample.