Support for Code Snippets (Managed Package Framework)
A code snippet is a piece of code that is inserted into the source file. The snippet itself is an XML-based template with a set of fields. These fields are highlighted after the snippet is inserted and can have different values depending on the context in which the snippet is inserted. Immediately after the snippet is inserted, the language service can format the snippet.
The snippet is inserted in a special edit mode that allows the fields of the snippet to be navigated by using the TAB key. The fields can support IntelliSense-style drop-down menus. The user commits the snippet to the source file by typing either the ENTER or the ESC key. To learn more about snippets, please see Code Snippets.
Managed Package Framework Support for Code Snippets
The managed package framework (MPF) supports most snippet functionality, from reading the template to inserting the snippet and enabling the special edit mode. Support is managed through the ExpansionProvider class.
When the Source class is instantiated, the CreateExpansionProvider method in the LanguageService class is called to obtain an ExpansionProvider object (note that the base LanguageService class always returns a new ExpansionProvider object for each Source object).
The MPF does not support expansion functions. An expansion function is a named function that is embedded in a snippet template and returns one or more values to be placed in a field. The values are returned by the language service itself through an ExpansionFunction object. The ExpansionFunction object must be implemented by the language service to support expansion functions.
Providing Support for Code Snippets
To enable support for code snippets, you must provide or install the snippets and you must provide the means for the user to insert those snippets. There are three steps to enabling support for code snippets:
Installing the snippet files.
Enabling code snippets for your language service.
Invoking the ExpansionProvider object.
Installing the Snippet Files
All snippets for a language are stored as templates in XML files, typically one snippet template per file. For details on the XML schema used for code snippet templates, see Code Snippets Schema Reference. Each snippet template is identified with a language ID. This language ID is specified in the registry and is put into the Language attribute of the <Code> tag in the template.
There are typically two locations where snippet template files are stored: 1) where your language was installed and 2) in the user's folder. These locations are added to the registry so that the Visual Studio Code Snippets Manager can find the snippets. The user's folder is where snippets created by the user are stored.
The typical folder layout for the installed snippet template files looks like this: [InstallRoot]\[TestLanguage]\Snippets\[LCID]\Snippets.
[InstallRoot] is the folder your language is installed in.
[TestLanguage] is the name of your language as a folder name.
[LCID] is the locale ID. This is how localized versions of your snippets are stored. For example, the locale ID for English is 1033, so [LCID] is replaced by 1033.
One additional file must be supplied and that is an index file, typically called SnippetsIndex.xml or ExpansionsIndex.xml (you can use any valid filename ending in .xml). This file is typically stored in the [InstallRoot]\[TestLanguage] folder and specifies the exact location of the snippets folder as well as the language ID and GUID of the language service that uses the snippets. The exact path of the index file is put into the registry as described later in "Installing the Registry Entries". Here is an example of a SnippetsIndex.xml file:
<?xml version="1.0" encoding="utf-8" ?>
<SnippetCollection>
<Language Lang="Testlanguage" Guid="{b614a40a-80d9-4fac-a6ad-fc2868fff7cd}">
<SnippetDir>
<OnOff>On</OnOff>
<Installed>true</Installed>
<Locale>1033</Locale>
<DirPath>%InstallRoot%\TestLanguage\Snippets\%LCID%\Snippets\</DirPath>
<LocalizedName>Snippets</LocalizedName>
</SnippetDir>
</Language>
</SnippetCollection>
The <Language> tag specifies the language ID (the Lang attribute) and the language service GUID.
This example assumes you have installed your language service in the Visual Studio installation folder. The %LCID% is replaced with the user's current locale ID. Multiple <SnippetDir> tags can be added, one for each different directory and locale. In addition, a snippet folder can contain subfolders, each of which is identified in the index file with the <SnippetSubDir> tag that is embedded in a <SnippetDir> tag.
Users can also create their own snippets for your language. These are typically stored in the user's settings folder, for example [TestDocs]\Code Snippets\[TestLanguage]\Test Code Snippets, where [TestDocs] is the location of the user's settings folder for Visual Studio.
The following substitution elements can be placed in the path stored in the <DirPath> tag in the index file.
Element |
Description |
---|---|
%LCID% |
Locale ID. |
%InstallRoot% |
Root installation folder for Visual Studio, for example, C:\Program Files\Microsoft Visual Studio 8. |
%ProjDir% |
Folder containing the current project. |
%ProjItem% |
Folder containing the current project item. |
%TestDocs% |
Folder in the user's settings folder, for example, C:\Documents and Settings\[username]\My Documents\Visual Studio\8. |
Enabling Code Snippets for Your Language Service
You can enable code snippets for your language service by adding the ProvideLanguageCodeExpansionAttribute attribute to your VSPackage (see Registering a Language Service (Managed Package Framework) for details). The ShowRoots and SearchPaths parameters are optional, but you should include the SearchPaths named parameter in order to inform the Code Snippets Manager of the location of your snippets.
The following is an example of how to use this attribute:
[ProvideLanguageCodeExpansion(
typeof(TestSnippetLanguageService),
"Test Snippet Language", // Name of language used as registry key
0, // Resource ID of localized name of language service
"Test Snippet Language", // Name of Language attribute in snippet template
@"%InstallRoot%\Test Snippet Language\Snippets\%LCID%\SnippetsIndex.xml", // Path to snippets index
SearchPaths = @"%InstallRoot%\Test Snippet Language\Snippets\%LCID%\")] // Path to snippets
Calling the Expansion Provider
The language service controls the insertion of any code snippet, as well as the way insertion is invoked.
Calling the Expansion Provider for Code Snippets
There are two ways to invoke the expansion provider: by using a menu command or by using a shortcut from a completion list.
Inserting a Code Snippet by using a Menu Command
To use a menu command to display the snippet browser, you add a menu command and then call the DisplayExpansionBrowser method in the ExpansionProvider interface in response to that menu command.
Add a command and a button to your .vsct file. You can find instructions for doing so in Walkthrough: Creating a Menu Command By Using the Visual Studio Package Template.
Derive a class from the ViewFilter class and override the QueryCommandStatus method to indicate support for the new menu command. This example always enables the menu command.
using Microsoft.VisualStudio.Package; namespace TestLanguagePackage { class TestViewFilter : ViewFilter { public TestViewFilter(CodeWindowManager mgr, IVsTextView view) : base(mgr, view) { } protected override int QueryCommandStatus(ref Guid guidCmdGroup, uint nCmdId) { int hr = base.QueryCommandStatus(ref guidCmdGroup, nCmdId); // If the base class did not recognize the command then // see if we can handle the command. if (hr == (int)Microsoft.VisualStudio.OLE.Interop.Constants.OLECMDERR_E_UNKNOWNGROUP) { if (guidCmdGroup == GuidList.guidTestLanguagePackageCmdSet) { if (nCmdId == PkgCmdIDList.InvokeCodeSnippetsBrowser) { hr = (int)(OLECMDF.OLECMDF_SUPPORTED | OLECMDF.OLECMDF_ENABLED); } } } return hr; } } }
Override the HandlePreExec method in the ViewFilter class to obtain the ExpansionProvider object and call the DisplayExpansionBrowser method on that object.
using Microsoft.VisualStudio.Package; namespace TestLanguagePackage { class TestViewFilter : ViewFilter { public override bool HandlePreExec(ref Guid guidCmdGroup, uint nCmdId, uint nCmdexecopt, IntPtr pvaIn, IntPtr pvaOut) { if (base.HandlePreExec(ref guidCmdGroup, nCmdId, nCmdexecopt, pvaIn, pvaOut)) { // Base class handled the command. Do nothing more here. return true; } if (guidCmdGroup == GuidList.guidTestLanguagePackageCmdSet) { if (nCmdId == PkgCmdIDList.InvokeCodeSnippetsBrowser) { ExpansionProvider ep = this.GetExpansionProvider(); if (this.TextView != null && ep != null) { bool bDisplayed = ep.DisplayExpansionBrowser( this.TextView, "TestLanguagePackage Snippet:", null, false, null, false); } return true; // Handled the command. } } return false; // Did not handle the command. } } }
The following methods in the ExpansionProvider class are called by Visual Studio in the given order during the process of inserting the snippet:
-
After the OnAfterInsertion method is called, the snippet has been inserted and the ExpansionProvider object is in a special edit mode used for modifying a snippet that has just been inserted.
Inserting a code snippet by using a shortcut
Implementation of a shortcut from a completion list is much more involved than implementing a menu command. You must first add snippet shortcuts to the IntelliSense word completion list. Then you must detect when a snippet shortcut name has been inserted as a result of completion. Finally, you must obtain the snippet title and path using the shortcut name and pass that information to the InsertNamedExpansion method on the ExpansionProvider method.
To add snippet shortcuts to the word completion list, add them to the Declarations object in your AuthoringScope class. You must make sure you can identify the shortcut as a snippet name. For an example, see Walkthrough: Getting a List of Installed Code Snippets (Managed Package Framework).
You can detect the insertion of the code snippet shortcut in the OnAutoComplete method of the Declarations class. Because the snippet name has already been inserted into the source file, it must be removed when the expansion is inserted. The InsertNamedExpansion method takes a span that describes the point of insertion for the snippet; if the span includes the entire snippet name in the source file, that name is replaced by the snippet.
Here is a version of a Declarations class that handles snippet insertion given a shortcut name. Other methods in the Declarations class have been omitted for clarity. Note that the constructor of this class takes a LanguageService object. This can be passed in from your version of the AuthoringScope object (for example, your implementation of the AuthoringScope class might take the LanguageService object in its constructor and pass that object on to your TestDeclarations class constructor).
[C#]
using Microsoft.VisualStudio.Package;
using Microsoft.VisualStudio.TextManager.Interop;
namespace TestLanguagePackage
{
internal class TestDeclarations : Declarations
{
private ArrayList declarations;
private LanguageService languageService;
private TextSpan commitSpan;
public TestDeclarations(LanguageService langService)
: base()
{
languageService = langService;
declarations = new ArrayList();
}
// This method is used to add declarations to the internal list.
public void AddDeclaration(TestDeclaration declaration)
{
declarations.Add(declaration);
}
// This method is called to get the string to commit to the source buffer.
// Note that the initial extent is only what the user has typed so far.
public override string OnCommit(IVsTextView textView,
string textSoFar,
char commitCharacter,
int index,
ref TextSpan initialExtent)
{
// We intercept this call only to get the initial extent
// of what was committed to the source buffer.
commitSpan = initialExtent;
return base.OnCommit(textView,
textSoFar,
commitCharacter,
index,
ref initialExtent);
}
// This method is called after the string has been committed to the source buffer.
public override char OnAutoComplete(IVsTextView textView,
string committedText,
char commitCharacter,
int index)
{
TestDeclaration item = declarations[index] as TestDeclaration;
if (item != null)
{
// In this example, TestDeclaration identifies types with a string.
// You can choose a different approach.
if (item.Type == "snippet")
{
Source src = languageService.GetSource(textView);
if (src != null)
{
ExpansionProvider ep = src.GetExpansionProvider();
if (ep != null)
{
string title;
string path;
int commitLength = commitSpan.iEndIndex - commitSpan.iStartIndex;
if (commitLength < committedText.Length)
{
// Replace everything that was inserted
// so calculate the span of the full
// insertion, taking into account what
// was inserted when the commitSpan
// was obtained in the first place.
commitSpan.iEndIndex += (committedText.Length - commitLength);
}
if (ep.FindExpansionByShortcut(textView,
committedText,
commitSpan,
true,
out title,
out path))
{
ep.InsertNamedExpansion(textView,
title,
path,
commitSpan,
false);
}
}
}
}
}
return '\0';
}
}
}
When the language service gets the shortcut name, it calls the FindExpansionByShortcut method to obtain the filename and code snippet title. The language service then calls the InsertNamedExpansion method in the ExpansionProvider class to insert the code snippet. The following methods are called by Visual Studio in the given order in the ExpansionProvider class during the process of inserting the snippet:
For more information on getting a list of installed code snippets for your language service, see Walkthrough: Getting a List of Installed Code Snippets (Managed Package Framework).
Implementing the ExpansionFunction Class
An expansion function is a named function that is embedded in a snippet template and returns one or more values to be placed in a field. In order to support expansion functions in your language service, you must derive a class from the ExpansionFunction class and implement the GetCurrentValue method. You must then override the CreateExpansionFunction method in the LanguageService class to return a new instantiation of your version of the ExpansionFunction class for each expansion function you support. If you support a list of possible values from an expansion function, you must also override the GetIntellisenseList method in the ExpansionFunction class to return a list of those values.
An expansion function that takes arguments or needs to access other fields should not be associated with an editable field, as the expansion provider might not be fully initialized by the time the expansion function is called. As a result, the expansion function is not able to obtain the value of its arguments or any other field.
Example
Here is an example of how a simple expansion function called GetName might be implemented. This expansion function appends a number to a base class name each time the expansion function is instantiated (which corresponds to each time the associated code snippet is inserted).
using Microsoft.VisualStudio.Package;
namespace TestLanguagePackage
{
public class TestLanguageService : LanguageService
{
private int classNameCounter = 0;
public override ExpansionFunction CreateExpansionFunction(
ExpansionProvider provider,
string functionName)
{
ExpansionFunction function = null;
if (functionName == "GetName")
{
++classNameCounter;
function = new TestGetNameExpansionFunction(provider, classNameCounter);
}
return function;
}
}
internal class TestGetNameExpansionFunction : ExpansionFunction
{
private int nameCount;
TestGetNameExpansionFunction(ExpansionProvider provider, int counter)
: base(provider)
{
nameCount = counter;
}
public override string GetCurrentValue()
{
string name = "TestClass";
name += nameCount.ToString();
return name;
}
}
}
See Also
Tasks
Walkthrough: Getting a List of Installed Code Snippets (Managed Package Framework)
Concepts
Registering a Language Service (Managed Package Framework)