58

I've been puzzling about this for a while and I've looked around a bit, unable to find any discussion about the subject.

Lets assume I wanted to implement a trivial example, like a new looping construct: do..until

Written very similarly to do..while

do {
    //Things happen here
} until (i == 15)

This could be transformed into valid csharp by doing so:

do {
    //Things happen here
} while (!(i == 15))

This is obviously a simple example, but is there any way to add something of this nature? Ideally as a Visual Studio extension to enable syntax highlighting etc.

4
  • 3
    A somewhat simpler solution would be to not add them to C# itself, but create a DSL or sublanguage that could be embedded and preprocessed/precompiled into C# (or MSIL) before you run the C# compiler. More steps, but also quite a bit more powerful.
    – ssube
    Jul 31, 2012 at 21:27
  • This is pretty much precisely what I'm attempting to do. Do you have any links or books you could point me toward about how to hook into the build pipeline as you suggest? Jul 31, 2012 at 21:30
  • 1
    You may want to look at other languages that are more suitable for defining your own control constructs. I.e. LISP/Scheme family is known for that and have some .Net implementations (stackoverflow.com/questions/110433/…). Jul 31, 2012 at 21:35
  • 2
    Nemerle is a language derived from C# that has constructs to allow you to define your own syntax within it. It is not a super set of C# though, in that it cannot compile existing C# code without modifications.
    – AaronLS
    Jan 13, 2015 at 20:24

6 Answers 6

63

Microsoft proposes Rolsyn API as an implementation of C# compiler with public API. It contains individual APIs for each of compiler pipeline stages: syntax analysis, symbol creation, binding, MSIL emission. You can provide your own implementation of syntax parser or extend existing one in order to get C# compiler w/ any features you would like.

Roslyn CTP

Let's extend C# language using Roslyn! In my example I'm replacing do-until statement w/ corresponding do-while:

using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using Roslyn.Compilers.CSharp;

namespace RoslynTest
{

    class Program
    {
        static void Main(string[] args)
        {

            var code = @"

            using System;

            class Program {
                public void My() {
                    var i = 5;
                    do {
                        Console.WriteLine(""hello world"");
                        i++;
                    }
                    until (i > 10);
                }
            }
            ";



            //Parsing input code into a SynaxTree object.
            var syntaxTree = SyntaxTree.ParseCompilationUnit(code);

            var syntaxRoot = syntaxTree.GetRoot();

            //Here we will keep all nodes to replace
            var replaceDictionary = new Dictionary<DoStatementSyntax, DoStatementSyntax>();

            //Looking for do-until statements in all descendant nodes
            foreach (var doStatement in syntaxRoot.DescendantNodes().OfType<DoStatementSyntax>())
            {
                //Until token is treated as an identifier by C# compiler. It doesn't know that in our case it is a keyword.
                var untilNode = doStatement.Condition.ChildNodes().OfType<IdentifierNameSyntax>().FirstOrDefault((_node =>
                {
                    return _node.Identifier.ValueText == "until";
                }));

                //Condition is treated as an argument list
                var conditionNode = doStatement.Condition.ChildNodes().OfType<ArgumentListSyntax>().FirstOrDefault();

                if (untilNode != null && conditionNode != null)
                {

                    //Let's replace identifier w/ correct while keyword and condition

                    var whileNode = Syntax.ParseToken("while");

                    var condition = Syntax.ParseExpression("(!" + conditionNode.GetFullText() + ")");

                    var newDoStatement = doStatement.WithWhileKeyword(whileNode).WithCondition(condition);

                    //Accumulating all replacements
                    replaceDictionary.Add(doStatement, newDoStatement);

                }

            }

            syntaxRoot = syntaxRoot.ReplaceNodes(replaceDictionary.Keys, (node1, node2) => replaceDictionary[node1]);

            //Output preprocessed code
            Console.WriteLine(syntaxRoot.GetFullText());

        }
    }
}
///////////
//OUTPUT://
///////////
//            using System;

//            class Program {
//                public void My() {
//                    var i = 5;
//                    do {
//                        Console.WriteLine("hello world");
//                        i++;
//                    }
//while(!(i > 10));
//                }
//            }

Now we can compile updated syntax tree using Roslyn API or save syntaxRoot.GetFullText() to text file and pass it to csc.exe.

6
  • 1
    This seems to be the direction I'd like to go. Most of the information I've been able to turn up about Roslyn is things like custom refactoring and custom code issues. Would you have any sources that show how to tie into the specific pipeline stages? Thanks :) Jul 31, 2012 at 22:18
  • @Thebigcheeze There is no much stuff on Roslyn yet. I have implemented your example by myself (see updated answer). Also, I have found a good article explaining principles of extending C# language: mindscapehq.com/blog/index.php/2011/10/20/in-bed-with-roslyn Aug 1, 2012 at 9:12
  • 12
    Is there a way to plug this in to Visual Studio to get proper Intellisence and syntax highlighting on custom language features? Mar 30, 2015 at 17:54
  • @RamanZhylich you have any clue for solving this stackoverflow.com/questions/38786359/… ? Aug 5, 2016 at 9:55
  • 2
    This example seems too restrict to things that the parser can understand. Converting the until (which is parsed as a function call) into something else is more like a hack. How to change the grammar file so we can add new language constructs?
    – fernacolo
    Jul 1, 2019 at 2:35
10

The big missing piece is hooking into the pipeline, otherwise you're not much further along than what .Emit provided. Don't misunderstand, Roslyn brings alot of great things, but for those of us who want to implement preprocessors and meta programming, it seems for now that was not on the plate. You can implement "code suggestions" or what they call "issues"/"actions" as an extension, but this is basically a one off transformation of code that acts as a suggested inline replacement and is not the way you would implement a new language feature. This is something you could always do with extensions, but Roslyn makes the code analysis/transformation tremendously easier: enter image description here

From what I've read of comments from Roslyn developers on the codeplex forums, providing hooks into the pipeline has not been an initial goal. All of the new C# language features they've provided in C# 6 preview involved modifying Roslyn itself. So you'd essentially need to fork Roslyn. They have documentation on how to build Roslyn and test it with Visual Studio. This would be a heavy handed way to fork Roslyn and have Visual Studio use it. I say heavy-handed because now anyone who wants to use your new language features must replace the default compiler with yours. You could see where this would begin to get messy.

Building Roslyn and replacing Visual Studio 2015 Preview's compiler with your own build

Another approach would be to build a compiler that acts as a proxy to Roslyn. There are standard APIs for building compilers that VS can leverage. It's not a trivial task though. You'd read in the code files, call upon the Roslyn APIs to transform the syntax trees and emit the results.

The other challenge with the proxy approach is going to be getting intellisense to play nicely with any new language features you implement. You'd probably have to have your "new" variant of C#, use a different file extension, and implement all the APIs that Visual Studio requires for intellisense to work.

Lastly, consider the C# ecosystem, and what an extensible compiler would mean. Let's say Roslyn did support these hooks, and it was as easy as providing a Nuget package or a VS extension to support a new language feature. All of your C# leveraging the new Do-Until feature is essentially invalid C#, and will not compile without the use of your custom extension. If you go far enough down this road with enough people implementing new features, very quickly you will find incompatible language features. Maybe someone implements a preprocessor macro syntax, but it can't be used along side someone else's new syntax because they happened to use similar syntax to delineate the beginning of the macro. If you leverage alot of open source projects and find yourself digging into their code, you would encounter alot of strange syntax that would require you side track and research the particular language extensions that project is leveraging. It could be madness. I don't mean to sound like a naysayer, as I have alot of ideas for language features and am very interested in this, but one should consider the implications of this, and how maintainable it would be. Imagine if you got hired to work somewhere and they had implemented all kinds of new syntax that you had to learn, and without those features having been vetted the same way C#'s features have, you can bet some of them would be not well designed/implemented.

4
  • Historically this is a good answer, but I want to make it clear that in recent years Roslyn allows a lot more than just that. The problem is that compiler programming is extremely complicated and easy to mess up, not that Roslyn does not allow you to include new language features. Aug 9, 2016 at 16:44
  • 1
    Agreed. Certainly I didn't cover the full breadth of things you can do with Roslyn. The point is however, there is still no integration point for modifying the C# compiler. The only way to do that, is to recompile it and do a full replacement, which is intended really only for testing. If I implemented language feature A, and you implemented language feature B, we'd have to merge our compiler source in order to use both features: github.com/dotnet/roslyn/blob/master/docs/contributing/…
    – AaronLS
    Aug 9, 2016 at 18:33
  • I'm beginning to look into the possibility of using Roslyn to add some tweaks to the C# language. One thing I'm unsure of is that in the old CodePlex link you posted they seem to be implying that a modified Roslyn can be used to emit modified code for .Net Framework. In the new GitHub link you posted they only talk about .Net Core, .Net Core, .Net Core, like they've forgotten about .Net Framework. Do you think it's possible to still modify emitted code for .Net Framework? Or have I misunderstood everything?
    – RenniePet
    Jan 26, 2018 at 10:03
  • 1
    My understanding is that guide for replacing the Visual Studio compiler will replace your compiler such that it'd be used for compiling projects targeting either .NET Framework or Core. Note that if you want to emit code at runtime using Roslyn, then you don't need to replace the VS compiler. You leverage Roslyn as compiler as a service to emit. Replacing the VS compiler is what you'd do to experiment with adding features to the VS compiler, which is usually not referred to as "emit".
    – AaronLS
    Jan 26, 2018 at 21:47
2

I found the easiest way to extend the C# language is to use the T4 text processor to preprocess my source. The T4 Script would read my C# and then call a Roslyn based parser, which would generate a new source with custom generated code.

During build time, all my T4 scripts would be executed, thus effectively working as an extended preprocessor.

In your case, the none-compliant C# code could be entered as follows:

#if ExtendedCSharp
     do 
#endif
     {
                    Console.WriteLine("hello world");
                    i++;
     }
#if ExtendedCSharp
                until (i > 10);
#endif

This would allow syntax checking the rest of your (C# compliant) code during development of your program.

1

You can't create your own syntactic abstractions in C#, so the best you can do is to create your own higher-order function. You could create an Action extension method:

public static void DoUntil(this Action act, Func<bool> condition)
{
    do
    {
        act();
    } while (!condition());
}

Which you can use as:

int i = 1;
new Action(() => { Console.WriteLine(i); i++; }).DoUntil(() => i == 15);

although it's questionable whether this is preferable to using a do..while directly.

1

For anyone seeking a built-in answer:

Visual Studio comes with the ability to run analysers.

In your project, add the following:

  <PropertyGroup>
    <EmitCompilerGeneratedFiles>true</EmitCompilerGeneratedFiles>
    <CompilerGeneratedFilesOutputPath>$(BaseIntermediateOutputPath)\..</CompilerGeneratedFilesOutputPath>
  </PropertyGroup>
    <ItemGroup>
        <Compile Remove="CsExtensionGenerator\**" />
        <EmbeddedResource Remove="CsExtensionGenerator\**" />
        <None Remove="CsExtensionGenerator\**" />
        <Analyzer Include="..\CsExtensionGenerator\bin\Release\netstandard2.0\CsExtensionGenerator.dll" />
    </ItemGroup>

Then create your own precompiler (using Roslyn or some other tool) within the CsExtensionGenerator.dll to transform the extensions within your source.

The transformations will be run at compile time.

0

No there is no way to achieve what you'are talking about.

Cause what you're asking about is defining new language construct, so new lexical analysis, language parser, semantic analyzer, compilation and optimization of generated IL.

What you can do in such cases is use of some macros/functions.

public bool Until(int val, int check)
{
   return !(val == check);
}

and use it like

do {
    //Things happen here
} while (Until(i, 15))
4
  • 1
    As you hinted in your first sentence, that's precisely what I'm trying to do. However, rather than writing a new parser, lexer, compiler I'm wondering if there's a way to extend the existing ones. Jul 31, 2012 at 21:29
  • Well, extend it by using your function, which will be compiled in IL without any change.
    – Tigran
    Jul 31, 2012 at 21:31
  • Yes, I understand that, and this is a simple example to illustrate the point, but as another example: Csharp has extension methods. They are extremely simple syntactic sugar. Is there a way I could implement extension methods myself? Jul 31, 2012 at 21:32
  • @Thebigcheeze: no, there is no way to do that, if not by customizing lexer, parser, compiler...
    – Tigran
    Jul 31, 2012 at 21:37

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