As a lot of people pointed out in this question, Lisp is mostly used as a learning experience. Nevertheless, it would be great if I could somehow use my Lisp algorithms and combine them with my C# programs. In college my profs never could tell me how to use my Lisp routines in a program (no, not writing a GUI in Lisp, thank you). So how can I?


Try these .Net implementations of Lisp:

IronScheme will aim to be a R6RS conforming Scheme implementation based on the Microsoft DLR.

L Sharp .NET is a powerful Lisp-like scripting language for .NET. It uses a Lisp dialect similar to Arc but tightly integrates with the .NET Framework which provides a rich set of libraries.

  • 4
    It’s worth noting that IronScheme is developed by Leppie, an active StackOverflow user. – Konrad Rudolph Jan 11 '10 at 20:12

Clojure is a Lisp-1 that is compiled on-the-fly to Java bytecode, leading to very good runtime performance. You can use Clojure, and cross-compile it to a .NET assembly using IKVM's ikvmc. Of course, when used in .NET, Clojure happily generates .NET IL, leading to the same kind of compiled-code performance you can expect when using it on a JVM.


If it's merely the routines you want to use you might try LSharp, which lets you have Lisp expressions in .NET:


The other way around (using .NET from Lisp) would be RDNZL:



The .Net 1.1 SDK contains a LISP compiler example. See SDK\v1.1\Tool Developers Guide\Samples\clisp


I know this is a really old question. But I'll try to provide an answer from my own experience and perspective.

To those like us who love the pureness and elegance and simplicity of Scheme/Lisp, I hope this gives you some encouragement and inspiration how they can be very useful in real production :)

I recently open-sourced a Scheme-like interpreter from work called schemy, written in C# (~1500 line of code). And here's the motivation and how it is useful -

Without going into too much detail, I was building a web API server, whose request handling logic is desired to be plug-and-play by other developers/data scientists. There was a clear demand for separation of concern here - the server does not care much about the request handling logic, but it needs to know which requests it can handle and where to find and load the logic for the handlers.

So instead of putting handlers implementation in the server application, the server only provides re-usable "blocks" that can be chained together based on some criteria and logic to form a pipeline, i.e., handlers defined via configuration. We tried JSON/XML to describe such a pipeline and quickly realized that I was essentially building an abstract syntax tree parser.

This was when I realized this was a demand for a lightweight, s-expression based small language. Hence I implemented the embeddable schemy interpreter.

I put an example command handling application here, which captures the essence of the design philosophy for the web server I mentioned above. It works like so:

  1. It extends an embedded Schemy interpreter with some functions implemented in C#.

  2. It finds .ss scripts which defines a command processing pipeline by using those implemented functions.

  3. The server finds and persists the composes pipeline from a script by looking for the symbol EXECUTE which should be of type Func<object, object>.

  4. When a command request comes in, it simply invokes the corresponding command processor (the one defined by EXECUTE), and responses with the result.

Finally, here's a complex example script, that provides an online man-page lookup via this TCP command server:

; This script will be load by the server as command `man`. The command
; is consistent of the following functions chained together:
; 1.  An online man-page look up - it detects the current operating system and 
;     decides to use either a linux or freebsd man page web API for the look up.
; 2.  A string truncator `truncate-string` - it truncates the input string, in
;     this case the output of the man-page lookup, to the specified number of
;     characters.
; The client of the command server connects via raw RCP protocol, and can issue
; commands like:
;     man ls
; and gets response of the truncated corresponding online manpage content.

(define EXECUTE
  (let ((os (get-current-os))
        (max-length 500))
    (chain                                      ; chain functions together
      (cond                                     ; pick a manpage lookup based on OS
        ((equal? os "freebsd") (man-freebsd))
        ((equal? os "linux") (man-linux))
        (else (man-freebsd)))
      (truncate-string max-length))))           ; truncate output string to a max length

With this script loaded by the command server, a TCP client can issue commands man <unix_command> to the server:

$ ncat 8080

man ls

LS(1)                   FreeBSD General Commands Manual                  LS(1)

     ls -- list directory contents

     ls [--libxo] [-ABCFGHILPRSTUWZabcdfghiklmnopqrstuwxy1,] [-D format]
        [file ...]

     For each operand that names a file of a type other than directory, ls
     displays its name as well as any requested, associated information.  For
     each operand that names a file of type directory, ls displays the names
     of files contained within that directory, as well as any requested,
  • Do you find that factoring this kind of logic into scripts that you parse works better than defining a plug-in architecture with a interface that you call? I've been wrestling for years with the an application with a similar pipelining structure where I want to allow processing along the pipeline to be configurable with code, because it would be too hard to describe with static configuration. But I can't find a good way to do this other than just delegating to code written by the user. But if doing that, why not make an IUserOverride interface and let them code in whatever language they want? – Joshua Frank Aug 6 '18 at 19:50
  • In other words, asking your users to write LISP to interact with your C# app seems like a higher expectation than asking them to write in the .NET language of their choice, and not more flexible either, if the whole program is to be loaded and executed. I have been trying to solve this problem for a long time without finding a good balance. – Joshua Frank Aug 6 '18 at 19:55

Perhaps you should take a look at L#. I don't know if it is what you are looking for (haven't touched Lisp since university) but it might be worth to check out.



There is also DotLisp.

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