Walkthrough: Create a Custom Directive Processor
Applies to: Visual Studio Visual Studio for Mac
Note
This article applies to Visual Studio 2017. If you're looking for the latest Visual Studio documentation, see Visual Studio documentation. We recommend upgrading to the latest version of Visual Studio. Download it here
Directive processors work by adding code to the generated transformation class. If you call a directive from a text template, the rest of the code that you write in your text template can rely on the functionality that the directive provides.
You can write your own custom directive processors. This enables you to customize your text templates. To create a custom directive processor, you create a class that inherits from either DirectiveProcessor or RequiresProvidesDirectiveProcessor.
Tasks that are illustrated in this walkthrough include the following:
Create a custom directive processor
Register the directive processor
Test the directive processor
Create a Custom Directive Processor
In this walkthrough, you create a custom directive processor. You add a custom directive that reads an XML file, stores it in an XmlDocument variable, and exposes it through a property. In the section "Testing the Directive Processor," you use this property in a text template to access the XML file.
The call to your custom directive looks like the following:
<#@ CoolDirective Processor="CustomDirectiveProcessor" FileName="<Your Path>DocFile.xml" #>
The custom directive processor adds the variable and the property to the generated transformation class. The directive that you write uses the System.CodeDom classes to create the code that the engine adds to the generated transformation class. The System.CodeDom classes create code in either Visual C# or Visual Basic, depending on the language specified in the language
parameter of the template
directive. The language of the directive processor and the language of the text template that is accessing the directive processor do not have to match.
The code that the directive creates looks like the following:
private System.Xml.XmlDocument document0Value;
public virtual System.Xml.XmlDocument Document0
{
get
{
if ((this.document0Value == null))
{
this.document0Value = XmlReaderHelper.ReadXml(<FileNameParameterValue>);
}
return this.document0Value;
}
}
Private document0Value As System.Xml.XmlDocument
Public Overridable ReadOnly Property Document0() As System.Xml.XmlDocument
Get
If (Me.document0Value Is Nothing) Then
Me.document0Value = XmlReaderHelper.ReadXml(<FileNameParameterValue>)
End If
Return Me.document0Value
End Get
End Property
To create a custom directive processor
In Visual Studio, create a C# or a Visual Basic class library project named CustomDP.
Note
If you want to install the directive processor on more than one computer, it is better to use a Visual Studio Extension (VSIX) project and include a .pkgdef file in the extension. For more information, see Deploying a Custom Directive Processor.
Add references to these assemblies:
Microsoft.VisualStudio.TextTemplating.*.0
Microsoft.VisualStudio.TextTemplating.Interfaces.*.0
Replace the code in Class1 with the following code. This code defines a CustomDirectiveProcessor class that inherits from the DirectiveProcessor class and implements the necessary methods.
using System; using System.CodeDom; using System.CodeDom.Compiler; using System.Collections.Generic; using System.Globalization; using System.IO; using System.Text; using System.Xml; using System.Xml.Serialization; using Microsoft.VisualStudio.TextTemplating; namespace CustomDP { public class CustomDirectiveProcessor : DirectiveProcessor { // This buffer stores the code that is added to the // generated transformation class after all the processing is done. // --------------------------------------------------------------------- private StringBuilder codeBuffer; // Using a Code Dom Provider creates code for the // generated transformation class in either Visual Basic or C#. // If you want your directive processor to support only one language, you // can hard code the code you add to the generated transformation class. // In that case, you do not need this field. // -------------------------------------------------------------------------- private CodeDomProvider codeDomProvider; // This stores the full contents of the text template that is being processed. // -------------------------------------------------------------------------- private String templateContents; // These are the errors that occur during processing. The engine passes // the errors to the host, and the host can decide how to display them, // for example the host can display the errors in the UI // or write them to a file. // --------------------------------------------------------------------- private CompilerErrorCollection errorsValue; public new CompilerErrorCollection Errors { get { return errorsValue; } } // Each time this directive processor is called, it creates a new property. // We count how many times we are called, and append "n" to each new // property name. The property names are therefore unique. // ----------------------------------------------------------------------------- private int directiveCount = 0; public override void Initialize(ITextTemplatingEngineHost host) { // We do not need to do any initialization work. } public override void StartProcessingRun(CodeDomProvider languageProvider, String templateContents, CompilerErrorCollection errors) { // The engine has passed us the language of the text template // we will use that language to generate code later. // ---------------------------------------------------------- this.codeDomProvider = languageProvider; this.templateContents = templateContents; this.errorsValue = errors; this.codeBuffer = new StringBuilder(); } // Before calling the ProcessDirective method for a directive, the // engine calls this function to see whether the directive is supported. // Notice that one directive processor might support many directives. // --------------------------------------------------------------------- public override bool IsDirectiveSupported(string directiveName) { if (string.Compare(directiveName, "CoolDirective", StringComparison.OrdinalIgnoreCase) == 0) { return true; } if (string.Compare(directiveName, "SuperCoolDirective", StringComparison.OrdinalIgnoreCase) == 0) { return true; } return false; } public override void ProcessDirective(string directiveName, IDictionary<string, string> arguments) { if (string.Compare(directiveName, "CoolDirective", StringComparison.OrdinalIgnoreCase) == 0) { string fileName; if (!arguments.TryGetValue("FileName", out fileName)) { throw new DirectiveProcessorException("Required argument 'FileName' not specified."); } if (string.IsNullOrEmpty(fileName)) { throw new DirectiveProcessorException("Argument 'FileName' is null or empty."); } // Now we add code to the generated transformation class. // This directive supports either Visual Basic or C#, so we must use the // System.CodeDom to create the code. // If a directive supports only one language, you can hard code the code. // -------------------------------------------------------------------------- CodeMemberField documentField = new CodeMemberField(); documentField.Name = "document" + directiveCount + "Value"; documentField.Type = new CodeTypeReference(typeof(XmlDocument)); documentField.Attributes = MemberAttributes.Private; CodeMemberProperty documentProperty = new CodeMemberProperty(); documentProperty.Name = "Document" + directiveCount; documentProperty.Type = new CodeTypeReference(typeof(XmlDocument)); documentProperty.Attributes = MemberAttributes.Public; documentProperty.HasSet = false; documentProperty.HasGet = true; CodeExpression fieldName = new CodeFieldReferenceExpression(new CodeThisReferenceExpression(), documentField.Name); CodeExpression booleanTest = new CodeBinaryOperatorExpression(fieldName, CodeBinaryOperatorType.IdentityEquality, new CodePrimitiveExpression(null)); CodeExpression rightSide = new CodeMethodInvokeExpression(new CodeTypeReferenceExpression("XmlReaderHelper"), "ReadXml", new CodePrimitiveExpression(fileName)); CodeStatement[] thenSteps = new CodeStatement[] { new CodeAssignStatement(fieldName, rightSide) }; CodeConditionStatement ifThen = new CodeConditionStatement(booleanTest, thenSteps); documentProperty.GetStatements.Add(ifThen); CodeStatement s = new CodeMethodReturnStatement(fieldName); documentProperty.GetStatements.Add(s); CodeGeneratorOptions options = new CodeGeneratorOptions(); options.BlankLinesBetweenMembers = true; options.IndentString = " "; options.VerbatimOrder = true; options.BracingStyle = "C"; using (StringWriter writer = new StringWriter(codeBuffer, CultureInfo.InvariantCulture)) { codeDomProvider.GenerateCodeFromMember(documentField, writer, options); codeDomProvider.GenerateCodeFromMember(documentProperty, writer, options); } } // One directive processor can contain many directives. // If you want to support more directives, the code goes here... // ----------------------------------------------------------------- if (string.Compare(directiveName, "supercooldirective", StringComparison.OrdinalIgnoreCase) == 0) { // Code for SuperCoolDirective goes here... } // Track how many times the processor has been called. // ----------------------------------------------------------------- directiveCount++; } public override void FinishProcessingRun() { this.codeDomProvider = null; // Important: do not do this: // The get methods below are called after this method // and the get methods can access this field. // ----------------------------------------------------------------- // this.codeBuffer = null; } public override string GetPreInitializationCodeForProcessingRun() { // Use this method to add code to the start of the // Initialize() method of the generated transformation class. // We do not need any pre-initialization, so we will just return "". // ----------------------------------------------------------------- // GetPreInitializationCodeForProcessingRun runs before the // Initialize() method of the base class. // ----------------------------------------------------------------- return String.Empty; } public override string GetPostInitializationCodeForProcessingRun() { // Use this method to add code to the end of the // Initialize() method of the generated transformation class. // We do not need any post-initialization, so we will just return "". // ------------------------------------------------------------------ // GetPostInitializationCodeForProcessingRun runs after the // Initialize() method of the base class. // ----------------------------------------------------------------- return String.Empty; } public override string GetClassCodeForProcessingRun() { //Return the code to add to the generated transformation class. // ----------------------------------------------------------------- return codeBuffer.ToString(); } public override string[] GetReferencesForProcessingRun() { // This returns the references that we want to use when // compiling the generated transformation class. // ----------------------------------------------------------------- // We need a reference to this assembly to be able to call // XmlReaderHelper.ReadXml from the generated transformation class. // ----------------------------------------------------------------- return new string[] { "System.Xml", this.GetType().Assembly.Location }; } public override string[] GetImportsForProcessingRun() { //This returns the imports or using statements that we want to //add to the generated transformation class. // ----------------------------------------------------------------- //We need CustomDP to be able to call XmlReaderHelper.ReadXml //from the generated transformation class. // ----------------------------------------------------------------- return new string[] { "System.Xml", "CustomDP" }; } } // ------------------------------------------------------------------------- // The code that we are adding to the generated transformation class // will call this method. // ------------------------------------------------------------------------- public static class XmlReaderHelper { public static XmlDocument ReadXml(string fileName) { XmlDocument d = new XmlDocument(); using (XmlReader reader = XmlReader.Create(fileName)) { try { d.Load(reader); } catch (System.Xml.XmlException e) { throw new DirectiveProcessorException("Unable to read the XML file.", e); } } return d; } } }
Imports System Imports System.CodeDom Imports System.CodeDom.Compiler Imports System.Collections.Generic Imports System.Globalization Imports System.IO Imports System.Text Imports System.Xml Imports System.Xml.Serialization Imports Microsoft.VisualStudio.TextTemplating Namespace CustomDP Public Class CustomDirectiveProcessor Inherits DirectiveProcessor ' This buffer stores the code that is added to the ' generated transformation class after all the processing is done. ' --------------------------------------------------------------- Private codeBuffer As StringBuilder ' Using a Code Dom Provider creates code for the ' generated transformation class in either Visual Basic or C#. ' If you want your directive processor to support only one language, you ' can hard code the code you add to the generated transformation class. ' In that case, you do not need this field. ' -------------------------------------------------------------------------- Private codeDomProvider As CodeDomProvider ' This stores the full contents of the text template that is being processed. ' -------------------------------------------------------------------------- Private templateContents As String ' These are the errors that occur during processing. The engine passes ' the errors to the host, and the host can decide how to display them, ' for example the host can display the errors in the UI ' or write them to a file. ' --------------------------------------------------------------------- Private errorsValue As CompilerErrorCollection Public Shadows ReadOnly Property Errors() As CompilerErrorCollection Get Return errorsValue End Get End Property ' Each time this directive processor is called, it creates a new property. ' We count how many times we are called, and append "n" to each new ' property name. The property names are therefore unique. ' -------------------------------------------------------------------------- Private directiveCount As Integer = 0 Public Overrides Sub Initialize(ByVal host As ITextTemplatingEngineHost) ' We do not need to do any initialization work. End Sub Public Overrides Sub StartProcessingRun(ByVal languageProvider As CodeDomProvider, ByVal templateContents As String, ByVal errors As CompilerErrorCollection) ' The engine has passed us the language of the text template ' we will use that language to generate code later. ' ---------------------------------------------------------- Me.codeDomProvider = languageProvider Me.templateContents = templateContents Me.errorsValue = errors Me.codeBuffer = New StringBuilder() End Sub ' Before calling the ProcessDirective method for a directive, the ' engine calls this function to see whether the directive is supported. ' Notice that one directive processor might support many directives. ' --------------------------------------------------------------------- Public Overrides Function IsDirectiveSupported(ByVal directiveName As String) As Boolean If String.Compare(directiveName, "CoolDirective", StringComparison.OrdinalIgnoreCase) = 0 Then Return True End If If String.Compare(directiveName, "SuperCoolDirective", StringComparison.OrdinalIgnoreCase) = 0 Then Return True End If Return False End Function Public Overrides Sub ProcessDirective(ByVal directiveName As String, ByVal arguments As IDictionary(Of String, String)) If String.Compare(directiveName, "CoolDirective", StringComparison.OrdinalIgnoreCase) = 0 Then Dim fileName As String If Not (arguments.TryGetValue("FileName", fileName)) Then Throw New DirectiveProcessorException("Required argument 'FileName' not specified.") End If If String.IsNullOrEmpty(fileName) Then Throw New DirectiveProcessorException("Argument 'FileName' is null or empty.") End If ' Now we add code to the generated transformation class. ' This directive supports either Visual Basic or C#, so we must use the ' System.CodeDom to create the code. ' If a directive supports only one language, you can hard code the code. ' -------------------------------------------------------------------------- Dim documentField As CodeMemberField = New CodeMemberField() documentField.Name = "document" & directiveCount & "Value" documentField.Type = New CodeTypeReference(GetType(XmlDocument)) documentField.Attributes = MemberAttributes.Private Dim documentProperty As CodeMemberProperty = New CodeMemberProperty() documentProperty.Name = "Document" & directiveCount documentProperty.Type = New CodeTypeReference(GetType(XmlDocument)) documentProperty.Attributes = MemberAttributes.Public documentProperty.HasSet = False documentProperty.HasGet = True Dim fieldName As CodeExpression = New CodeFieldReferenceExpression(New CodeThisReferenceExpression(), documentField.Name) Dim booleanTest As CodeExpression = New CodeBinaryOperatorExpression(fieldName, CodeBinaryOperatorType.IdentityEquality, New CodePrimitiveExpression(Nothing)) Dim rightSide As CodeExpression = New CodeMethodInvokeExpression(New CodeTypeReferenceExpression("XmlReaderHelper"), "ReadXml", New CodePrimitiveExpression(fileName)) Dim thenSteps As CodeStatement() = New CodeStatement() {New CodeAssignStatement(fieldName, rightSide)} Dim ifThen As CodeConditionStatement = New CodeConditionStatement(booleanTest, thenSteps) documentProperty.GetStatements.Add(ifThen) Dim s As CodeStatement = New CodeMethodReturnStatement(fieldName) documentProperty.GetStatements.Add(s) Dim options As CodeGeneratorOptions = New CodeGeneratorOptions() options.BlankLinesBetweenMembers = True options.IndentString = " " options.VerbatimOrder = True options.BracingStyle = "VB" Using writer As StringWriter = New StringWriter(codeBuffer, CultureInfo.InvariantCulture) codeDomProvider.GenerateCodeFromMember(documentField, writer, options) codeDomProvider.GenerateCodeFromMember(documentProperty, writer, options) End Using End If ' One directive processor can contain many directives. ' If you want to support more directives, the code goes here... ' ----------------------------------------------------------------- If String.Compare(directiveName, "supercooldirective", StringComparison.OrdinalIgnoreCase) = 0 Then ' Code for SuperCoolDirective goes here. End If ' Track how many times the processor has been called. ' ----------------------------------------------------------------- directiveCount += 1 End Sub Public Overrides Sub FinishProcessingRun() Me.codeDomProvider = Nothing ' Important: do not do this: ' The get methods below are called after this method ' and the get methods can access this field. ' ----------------------------------------------------------------- ' Me.codeBuffer = Nothing End Sub Public Overrides Function GetPreInitializationCodeForProcessingRun() As String ' Use this method to add code to the start of the ' Initialize() method of the generated transformation class. ' We do not need any pre-initialization, so we will just return "". ' ----------------------------------------------------------------- ' GetPreInitializationCodeForProcessingRun runs before the ' Initialize() method of the base class. ' ----------------------------------------------------------------- Return String.Empty End Function Public Overrides Function GetPostInitializationCodeForProcessingRun() As String ' Use this method to add code to the end of the ' Initialize() method of the generated transformation class. ' We do not need any post-initialization, so we will just return "". ' ------------------------------------------------------------------ ' GetPostInitializationCodeForProcessingRun runs after the ' Initialize() method of the base class. ' ----------------------------------------------------------------- Return String.Empty End Function Public Overrides Function GetClassCodeForProcessingRun() As String ' Return the code to add to the generated transformation class. ' ----------------------------------------------------------------- Return codeBuffer.ToString() End Function Public Overrides Function GetReferencesForProcessingRun() As String() ' This returns the references that we want to use when ' compiling the generated transformation class. ' ----------------------------------------------------------------- ' We need a reference to this assembly to be able to call ' XmlReaderHelper.ReadXml from the generated transformation class. ' ----------------------------------------------------------------- Return New String() {"System.Xml", Me.GetType().Assembly.Location} End Function Public Overrides Function GetImportsForProcessingRun() As String() ' This returns the imports or using statements that we want to ' add to the generated transformation class. ' ----------------------------------------------------------------- ' We need CustomDP to be able to call XmlReaderHelper.ReadXml ' from the generated transformation class. ' ----------------------------------------------------------------- Return New String() {"System.Xml", "CustomDP"} End Function End Class ' -------------------------------------------------------------------------- ' The code that we are adding to the generated transformation class ' will call this method. ' -------------------------------------------------------------------------- Public Class XmlReaderHelper Public Shared Function ReadXml(ByVal fileName As String) As XmlDocument Dim d As XmlDocument = New XmlDocument() Using reader As XmlReader = XmlReader.Create(fileName) Try d.Load(reader) Catch e As System.Xml.XmlException Throw New DirectiveProcessorException("Unable to read the XML file.", e) End Try End Using Return d End Function End Class End Namespace
For Visual Basic only, open the Project menu, and click CustomDP Properties. On the Application tab, in Root namespace, delete the default value,
CustomDP
.On the File menu, click Save All.
On the Build menu, click Build Solution.
Build the Project
Build the project. On the Build menu, click Build Solution.
Register the Directive Processor
Before you can call a directive from a text template in Visual Studio, you must add a registry key for the directive processor.
Note
If you want to install the directive processor on more than one computer, it is better to define a Visual Studio Extension (VSIX) that includes a .pkgdef file along with your assembly. For more information, see Deploying a Custom Directive Processor.
Keys for directive processors exist in the registry in the following location:
HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\VisualStudio\*.0\TextTemplating\DirectiveProcessors
For 64-bit systems, the registry location is:
HKEY_LOCAL_MACHINE\SOFTWARE\Wow6432Node\Microsoft\VisualStudio\*.0\TextTemplating\DirectiveProcessors
In this section, you add a key for your custom directive processor to the registry in the same location.
Caution
Incorrectly editing the registry can severely damage your system. Before you make changes to the registry, back up any valuable data that is on the computer.
To add a registry key for the directive processor
Run the
regedit
command by using the Start menu or the command line.Browse to the location HKEY_LOCAL_MACHINE\SOFTWARE\Microsoft\VisualStudio\*.0\TextTemplating\DirectiveProcessors, and click the node.
On 64-bit systems, use HKEY_LOCAL_MACHINE\SOFTWARE\Wow6432Node\Microsoft\VisualStudio\*.0\TextTemplating\DirectiveProcessors
Add a new key named CustomDirectiveProcessor.
Note
This is the name that you will use in the Processor field of your custom directives. This name does not need to match the name of the directive, the name of the directive processor class, or the directive processor namespace.
Add a new string value named Class that has a value CustomDP.CustomDirectiveProcessor for the name of the new string.
Add a new string value named CodeBase that has a value equal to the path of the CustomDP.dll that you created earlier in this walkthrough.
For example, the path might look like
C:\UserFiles\CustomDP\bin\Debug\CustomDP.dll
.Your registry key should have the following values:
Name Type Data (Default) REG_SZ (value not set) Class REG_SZ CustomDP.CustomDirectiveProcessor CodeBase REG_SZ <Path to Your Solution>CustomDP\bin\Debug\CustomDP.dll If you have put the assembly in the GAC, the values should look like the following:
Name Type Data (Default) REG_SZ (value not set) Class REG_SZ CustomDP.CustomDirectiveProcessor Assembly REG_SZ CustomDP.dll Restart Visual Studio.
Test the Directive Processor
To test the directive processor, you need to write a text template that calls it.
In this example, the text template calls the directive and passes in the name of an XML file that contains documentation for a class file. The text template uses the XmlDocument property that the directive creates to navigate the XML and print the documentation comments.
To create an XML file for use in testing the directive processor
Create a file named DocFile.xml by using any text editor (for example, Notepad).
Note
You can create this file in any location (for example, C:\Test\DocFile.xml).
Add the following to the XML file:
<?xml version="1.0"?> <doc> <assembly> <name>xmlsample</name> </assembly> <members> <member name="T:SomeClass"> <summary>Class level summary documentation goes here.</summary> <remarks>Longer comments can be associated with a type or member through the remarks tag</remarks> </member> <member name="F:SomeClass.m_Name"> <summary>Store for the name property</summary> </member> <member name="M:SomeClass.#ctor"> <summary>The class constructor.</summary> </member> <member name="M:SomeClass.SomeMethod(System.String)"> <summary>Description for SomeMethod.</summary> <param name="s">Parameter description for s goes here</param> <seealso cref="T:System.String">You can use the cref attribute on any tag to reference a type or member and the compiler will check that the reference exists.</seealso> </member> <member name="M:SomeClass.SomeOtherMethod"> <summary>Some other method.</summary> <returns>Return results are described through the returns tag.</returns> <seealso cref="M:SomeClass.SomeMethod(System.String)">Notice the use of the cref attribute to reference a specific method</seealso> </member> <member name="M:SomeClass.Main(System.String[])"> <summary>The entry point for the application.</summary> <param name="args">A list of command line arguments</param> </member> <member name="P:SomeClass.Name"> <summary>Name property</summary> <value>A value tag is used to describe the property value</value> </member> </members> </doc>
Save and close the file.
To create a text template to test the directive processor
In Visual Studio, create a C# or Visual Basic class library project named TemplateTest.
Add a new text template file named TestDP.tt.
Make sure that the Custom Tool property of TestDP.tt is set to
TextTemplatingFileGenerator
.Change the content of TestDP.tt to the following text.
Note
Replace the string
<YOUR PATH>
with the path to the DocFile.xml file.The language of the text template does not have to match the language of the directive processor.
<#@ assembly name="System.Xml" #> <#@ template debug="true" #> <#@ output extension=".txt" #> <# // This will call the custom directive processor. #> <#@ CoolDirective Processor="CustomDirectiveProcessor" FileName="<YOUR PATH>\DocFile.xml" #> <# // Uncomment this line if you want to see the generated transformation class. #> <# // System.Diagnostics.Debugger.Break(); #> <# // This will use the results of the directive processor. #> <# // The directive processor has read the XML and stored it in Document0. #> <# XmlNode node = Document0.DocumentElement.SelectSingleNode("members"); foreach (XmlNode member in node.ChildNodes) { XmlNode name = member.Attributes.GetNamedItem("name"); WriteLine("{0,7}: {1}", "Name", name.Value); foreach (XmlNode comment in member.ChildNodes) { WriteLine("{0,7}: {1}", comment.Name, comment.InnerText); } WriteLine(""); } #> <# // You can call the directive processor again and pass it a different file. #> <# // @ CoolDirective Processor="CustomDirectiveProcessor" FileName="<YOUR PATH>\<Your Second File>" #> <# // To use the results of the second directive call, use Document1. #> <# // XmlNode node2 = Document1.DocumentElement.SelectSingleNode("members"); // ... #>
<#@ assembly name="System.Xml" #> <#@ template debug="true" language="vb" #> <#@ output extension=".txt" #> <# ' This will call the custom directive processor. #> <#@ CoolDirective Processor="CustomDirectiveProcessor" FileName="<YOUR PATH>\DocFile.xml" #> <# ' Uncomment this line if you want to see the generated transformation class. #> <# ' System.Diagnostics.Debugger.Break() #> <# ' This will use the results of the directive processor. #> <# ' The directive processor has read the XML and stored it in Document0. #> <# Dim node as XmlNode = Document0.DocumentElement.SelectSingleNode("members") Dim member As XmlNode For Each member In node.ChildNodes Dim name As XmlNode = member.Attributes.GetNamedItem("name") WriteLine("{0,7}: {1}", "Name", name.Value) Dim comment As XmlNode For Each comment In member.ChildNodes WriteLine("{0,7}: {1}", comment.Name, comment.InnerText) Next WriteLine("") Next #> <# ' You can call the directive processor again and pass it a different file. #> <# ' @ CoolDirective Processor="CustomDirectiveProcessor" FileName="<YOUR PATH>\DocFileTwo.xml" #> <# ' To use the results of the second directive call, use Document1. #> <# ' node = Document1.DocumentElement.SelectSingleNode("members") ' ... #>
Note
In this example, the value of the
Processor
parameter isCustomDirectiveProcessor
. The value of theProcessor
parameter must match the name of the processor's registry key.On the File menu, choose Save All.
To test the directive processor
In Solution Explorer, right-click TestDP.tt and then click Run Custom Tool.
For Visual Basic users, TestDP.txt might not appear in Solution Explorer by default. To display all files assigned to the project, open the Project menu and click Show All Files.
In Solution Explorer, expand the TestDP.txt node, and then double-click TestDP.txt to open it in the editor.
The generated text output appears. The output should look like the following:
Name: T:SomeClass summary: Class level summary documentation goes here. remarks: Longer comments can be associated with a type or member through the remarks tag Name: F:SomeClass.m_Name summary: Store for the name property Name: M:SomeClass.#ctor summary: The class constructor. Name: M:SomeClass.SomeMethod(System.String) summary: Description for SomeMethod. param: Parameter description for s goes here seealso: You can use the cref attribute on any tag to reference a type or member and the compiler will check that the reference exists. Name: M:SomeClass.SomeOtherMethod summary: Some other method. returns: Return results are described through the returns tag. seealso: Notice the use of the cref attribute to reference a specific method Name: M:SomeClass.Main(System.String[]) summary: The entry point for the application. param: A list of command line arguments Name: P:SomeClass.Name summary: Name property value: A value tag is used to describe the property value
Add HTML to Generated Text
After you test your custom directive processor, you might want to add some HTML to your generated text.
To add HTML to the generated text
Replace the code in TestDP.tt with the following. The HTML is highlighted. Make sure to replace the string
YOUR PATH
with the path to the DocFile.xml file.Note
Additional open <# and close #> tags separate the statement code from the HTML tags.
<#@ assembly name="System.Xml" #> <#@ template debug="true" #> <#@ output extension=".htm" #> <# // This will call the custom directive processor #> <#@ CoolDirective Processor="CustomDirectiveProcessor" FileName="<YOUR PATH>\DocFile.xml" #> <# // Uncomment this line if you want to see the generated transformation class #> <# // System.Diagnostics.Debugger.Break(); #> <html><body> <# // This will use the results of the directive processor #>. <# // The directive processor has read the XML and stored it in Document0#>. <# XmlNode node = Document0.DocumentElement.SelectSingleNode("members"); foreach (XmlNode member in node.ChildNodes) { #> <h3> <# XmlNode name = member.Attributes.GetNamedItem("name"); WriteLine("{0,7}: {1}", "Name", name.Value); #> </h3> <# foreach (XmlNode comment in member.ChildNodes) { WriteLine("{0,7}: {1}", comment.Name, comment.InnerText); #> <br/> <# } } #> </body></html>
<#@ assembly name="System.Xml" #> <#@ template debug="true" language="vb" #> <#@ output extension=".htm" #> <# ' This will call the custom directive processor #> <#@ CoolDirective Processor="CustomDirectiveProcessor" FileName="<YOUR PATH>\DocFile.xml" #> <# ' Uncomment this line if you want to see the generated transformation class #> <# ' System.Diagnostics.Debugger.Break() #> <html><body> <# ' This will use the results of the directive processor #>. <# ' The directive processor has read the XML and stored it in Document0#>. <# Dim node as XmlNode = Document0.DocumentElement.SelectSingleNode("members") Dim member As XmlNode For Each member In node.ChildNodes #> <h3> <# Dim name As XmlNode = member.Attributes.GetNamedItem("name") WriteLine("{0,7}: {1}", "Name", name.Value) #> </h3> <# Dim comment As XmlNode For Each comment In member.ChildNodes WriteLine("{0,7}: {1}", comment.Name, comment.InnerText) #> <br/> <# Next Next #> </body></html>
On the File menu, click Save TestDP.txt.
To view the output in a browser, in Solution Explorer, right-click TestDP.htm, and click View In Browser.
Your output should be the same as the original text, except it has the HTML format applied. Each item name appears in bold.