Introduction
The System.CodeDom namespace in .net allows the users to dynamically compile and create assemblies. This concept is used by ASP.NET internally. The article provides an insight on how to create assemblies dynamically.
The following are the list of classes, which would be used to create the assembly:
- CodeNamespace
- CodeTypeDeclaration
- CodeCompileUnit
- CodeEntryPointMethod
- CodeMemberField
- CodeMemberProperty
- CodeMemberMethod
- CodeParameterDeclarationExpression
- CodeCompileUnit
- CompilerParameters
- CodeSnippetExpression
- CodeExpressionStatement
Step 1:
Add the following namespace declarations,
Imports System
Imports System.CodeDom
Imports System.CodeDom.Compiler
Imports System.IO
The System.Codedom namespace contains the classes/types necessary to create assemblies at runtime. The above-mentioned classes are contained within this namespace.
Step 2: Create the following class,
Public Class CCodeGenerator
Private mynamespace As CodeNamespace
'TODO: INSTANT VB TODO TASK: myclass is a keyword in VB.NET. Change the name or use square brackets to override it:
Private myclass_Renamed As CodeTypeDeclaration
Private myassembly As CodeCompileUnit
Any code created from Step 3 to Step 10 must reside in the CcodeGenerator class. For clarity and explanation sake, the article has fragmented the code into pieces.
Step 3:
The CodeNamespace class is used to add/create namespaces. The name of the namespace can be passed through the constructor of the class.
Public Sub CreateNamespace()
mynamespace = New CodeNamespace("mynamespace")
End Sub
Step 4: Using the mynamespace object, add the list of all namespaces that are used by the assembly.
Public Sub CreateImports()
mynamespace.Imports.Add(New CodeNamespaceImport("System"))
mynamespace.Imports.Add(New CodeNamespaceImport("System.Drawing"))
mynamespace.Imports.Add(New CodeNamespaceImport("System.Windows.Forms"))
End Sub
Step 5: Create a class inside the namespace.
Public Sub CreateClass()
myclass_Renamed = New CodeTypeDeclaration()
'Assign a name for the class
myclass_Renamed.Name = "CMyclass"
myclass_Renamed.IsClass = True
'Set the Access modifier.
myclass_Renamed.Attributes = MemberAttributes.Public
'Add the newly created class to the namespace
mynamespace.Types.Add(myclass_Renamed)
End Sub
Step 6: Create a member and add it to the newly created class.
Public Sub CreateMember()
'Provide the type and variable name
Dim mymemberfield As CodeMemberField = New CodeMemberField(GetType(System.String),"strMessage")
'Add the member to the class
myclass_Renamed.Members.Add(mymemberfield)
End Sub
Step 7: Create a property (with get and set) and add it to the class.
Public Sub CreateProperty()
Dim mymemberproperty As CodeMemberProperty = New CodeMemberProperty()
'Name of the property
mymemberproperty.Name = "Message"
'Data type of the property
mymemberproperty.Type = New CodeTypeReference(GetType(System.String))
'Access modifier of the property
mymemberproperty.Attributes = MemberAttributes.Public
'Add the property to the class
myclass_Renamed.Members.Add(mymemberproperty)
'Add the code-snippets to the property.
'If required, we can also add some custom validation code.
'using the CodeSnippetExpression class.
'Provide the return <propertyvalue> statement-For getter
Dim getsnippet As CodeSnippetExpression = New CodeSnippetExpression("return strMessage")
'Assign the new value to the property-For setter
Dim setsnippet As CodeSnippetExpression = New CodeSnippetExpression("strMessage=value")
'Add the code snippets into the property
mymemberproperty.GetStatements.Add(getsnippet)
mymemberproperty.SetStatements.Add(setsnippet)
End Sub
Step 8:
Create a method. Please take utmost care when assigning values to the CodeSnippetExpression class, as any statement provided must be not have any syntax error(s). Since the assembly would be created at runtime (dynamically), the compiler would simply throw all.
Compile-time error(s) and we don't have any prudent means to find and eliminate the error.
Public Sub CreateMethod()
'Create an object of the CodeMemberMethod
Dim mymethod As CodeMemberMethod = New CodeMemberMethod()
'Assign a name for the method.
mymethod.Name = "AddNumbers"
'create two parameters
Dim cpd1 As CodeParameterDeclarationExpression = New CodeParameterDeclarationExpression(GetType(Integer),"a")
Dim cpd2 As CodeParameterDeclarationExpression = New CodeParameterDeclarationExpression(GetType(Integer),"b")
'Add the parameters to the method.
mymethod.Parameters.AddRange(New CodeParameterDeclarationExpression() {cpd1, cpd2})
'Provide the return type for the method.
Dim ctr As CodeTypeReference = New CodeTypeReference(GetType(System.Int32))
'Assign the return type to the method.
mymethod.ReturnType = ctr
'Provide definition to the method (returns the sum of two //numbers)
Dim snippet1 As CodeSnippetExpression = New CodeSnippetExpression("System.Console.WriteLine("" Adding :"" + a + "" And "" + b )")
'return the value
Dim snippet2 As CodeSnippetExpression = New CodeSnippetExpression("return a+b")
'Convert the snippets into Expression statements.
Dim stmt1 As CodeExpressionStatement = New CodeExpressionStatement(snippet1)
Dim stmt2 As CodeExpressionStatement = New CodeExpressionStatement(snippet2)
'Add the expression statements to the method.
mymethod.Statements.Add(stmt1)
mymethod.Statements.Add(stmt2)
'Provide the access modifier for the method.
mymethod.Attributes = MemberAttributes.Public
'Finally add the method to the class.
myclass_Renamed.Members.Add(mymethod)
End Sub
Step 9: Create a main method (Entry point for the assembly)
Public Sub CreateEntryPoint()
'Create an object and assign the name as "Main"
Dim mymain As CodeEntryPointMethod = New CodeEntryPointMethod()
mymain.Name = "Main"
'Mark the access modifier for the main method as Public and //static
mymain.Attributes = MemberAttributes.Public Or MemberAttributes.Static
'Provide defenition to the main method.
'Create an object of the "Cmyclass" and invoke the method
'by passing the required parameters.
Dim exp1 As CodeSnippetExpression = New CodeSnippetExpression("CMyclass x = new CMyclass()")
'Assign value to our property
Dim exp2 As CodeSnippetExpression = New CodeSnippetExpression("x.Message=""Hello World """)
'Print the value in the property
Dim exp3 As CodeSnippetExpression = New CodeSnippetExpression("Console.WriteLine(x.Message)")
'Invode the method
Dim exp4 As CodeSnippetExpression = New CodeSnippetExpression("Console.WriteLine(""Answer: {0}"",x.AddNumbers(10,20))")
Dim exp5 As CodeSnippetExpression = New CodeSnippetExpression("Console.ReadLine()")
'Create expression statements for the snippets
Dim ces1 As CodeExpressionStatement = New CodeExpressionStatement(exp1)
Dim ces2 As CodeExpressionStatement = New CodeExpressionStatement(exp2)
Dim ces3 As CodeExpressionStatement = New CodeExpressionStatement(exp3)
Dim ces4 As CodeExpressionStatement = New CodeExpressionStatement(exp4)
Dim ces5 As CodeExpressionStatement = New CodeExpressionStatement(exp5)
'Add the expression statements to the main method.
mymain.Statements.Add(ces1)
mymain.Statements.Add(ces2)
mymain.Statements.Add(ces3)
mymain.Statements.Add(ces4)
mymain.Statements.Add(ces5)
'Add the main method to the class
myclass_Renamed.Members.Add(mymain)
End Sub
Step 10: Compile the class and create the assembly.
Public Sub SaveAssembly()
'Create a new object of the global CodeCompileUnit class.
myassembly = New CodeCompileUnit()
'Add the namespace to the assembly.
myassembly.Namespaces.Add(mynamespace)
'Add the following compiler parameters. (The references to the //standard .net dll(s) and framework library).
Dim comparam As CompilerParameters = New CompilerParameters(New String() {"mscorlib.dll"})
comparam.ReferencedAssemblies.Add("System.dll")comparam.ReferencedAssemblies.Add("System.Drawing.dll")
comparam.ReferencedAssemblies.Add("System.Windows.Forms.dll")
'Indicates Whether the compiler has to generate the output in //memory
comparam.GenerateInMemory = False
'Indicates whether the output is an executable.
comparam.GenerateExecutable = True
'provide the name of the class which contains the Main Entry //point method
comparam.MainClass = "mynamespace.CMyclass"
'provide the path where the generated assembly would be placed
If Directory.Exists("c:\temp") Then
comparam.OutputAssembly = "c:\temp\HelloWorld.exe"
Else
Directory.CreateDirectory("c:\temp")
comparam.OutputAssembly = "c:\temp\HelloWorld.exe"
End If
'Create an instance of the c# compiler and pass the assembly to //compile
Dim ccp As Microsoft.CSharp.CSharpCodeProvider = New Microsoft.CSharp.CSharpCodeProvider()
Dim icc As ICodeCompiler = ccp.CreateCompiler()
'The CompileAssemblyFromDom would either return the list of
'compile time errors (if any), or would create the
'assembly in the respective path in case of successful //compilation
Dim compres As CompilerResults = icc.CompileAssemblyFromDom(comparam,myassembly)
If compres Is Nothing OrElse compres.Errors.Count>0 Then
Dim i As Integer=0
Do While i<compres.Errors.Count
Console.WriteLine(compres.Errors(i))
i += 1
Loop
End If
End Sub
Step 11: Create a test component to create the assembly.
Imports System
amespace nmTest
Friend Class DynamicAssemblies
<STAThread> _
Shared Sub Main(ByVal args As String())
Dim cg As CCodeGenerator = New CCodeGenerator()
cg.CreateNamespace()
cg.CreateImports()
cg.CreateClass()
cg.CreateMember()
cg.CreateProperty()
cg.CreateMethod()
cg.CreateEntryPoint()
cg.SaveAssembly()
Console.ReadLine()
End Sub
End Class
End Namespace
The HelloWorld.exe would be created in the mentioned path. The output of the assembly would be as follows: 
Conclusion
The facility to dynamically create assemblies would be of immense use, when developing real-world applications that demand a great amount of flexibility and scalability.
NOTE: THIS ARTICLE IS CONVERTED FROM C# TO VB.NET USING A CONVERSION TOOL. ORIGINAL ARTICLE CAN BE FOUND ON C# CORNER (WWW.C-SHARPCORNER.COM).
