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I would like to to choose one of these languages for building web applications. I'm not interested in framework per se, but have the following needs:

  • Rapid development.
  • Easy to scale.
  • Strong community for the web.
  • Quick and easy to deploy.

I'm very familiar with Haskell, and have some familiarity with scheme (in particular PLT). Scheme appeals to me as good candidate for web development due to it's simple syntax which is homogenous across libraries. I state this despite my subjective opinion that Haskell is a 'cleaner' language.

Haskell web apps seem to require learning and building a patchwork of different combinator libraries. On the plus side, I realise this can be quite expressive, although I'd prefer to eliminate impedance mismatches where possible.

While scheme-plt looks to be a good fit, I can find but one example of it being used in the "real world". Haskell doesn't seem to fair too much better here, but there seems to be a bigger community behind the web side.

Please help me make up my mind. For the most part I'm interested in real-world use cases.

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closed as primarily opinion-based by LittleBobbyTables, Kevin Reid, legoscia, Mark, AndrewC Oct 1 at 1:44

Many good questions generate some degree of opinion based on expert experience, but answers to this question will tend to be almost entirely based on opinions, rather than facts, references, or specific expertise.If this question can be reworded to fit the rules in the help center, please edit the question.

6 Answers 6

I think that the Haskell community is exploring different ways to solve the problem of web application development, so there are a number of different approaches. One of the problems is the stateless nature of HTTP. From schema I love his continuation based approach which solves the inversion of control of web applications where the IO (the Web server) call the programmer code that forces an event model. This is a problem for the creation of readable and maintainable applications where the navigation is right in front of the programmer eyes and the state is managed as language variables and the REST architecture is observed to a certain degree. To the date, only WASH (discontinued) and MFlow does this in Haskell. The rest of the Haskell follow a event driven MVC approach.

Another problem is the inherent typeless nature of HTTP which makes the validation of forms a problem. In this respect, all the Haskell web frameworks do a wonderful job, while scheme by its inherent dynamic types is not so good.

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One thing I like about Scheme for web programming is the straightforward correspondence between HTML and its serialized representation in Scheme. For example the following HTML page:

    <title>sxml simple / CGI example</title>
    <form method="post" action="tabulate.cgi">
      <td><input type="text" name="username"/></td>
      <td><input type="text" name="city"/></td>
      <td>Favorite Pro Wrestler</td>
      <td><input type="text" name="favorite_wrestler"/></td>
      <input type="submit"/>

can be converted using one function call to its Scheme representation below, and vice versa:

 (*PI* xml
 (html (head (title "sxml simple / CGI example"))
       (body (form (@ (method
           (table (tr (td "Name")
                  (td (input (@ (type "text")
                        (name "username")))))
              (tr (td "City")
                  (td (input (@ (type "text")
                        (name "city")))))
              (tr (td "Favorite Pro Wrestler")
                  (td (input (@ (type "text")
                        (name "favorite_wrestler"))))))
           (input (@ (type "submit")))))))

The Scheme representation of the page has the desirable properties: 1) it is human-readable (with training), 2) it is machine-readable - it can be understood as-is by any Scheme interpreter, without requiring any libraries 3) it maps easily to in-memory Scheme data structures, which can be manipulated and 4) it can be rendered trivially into HTML

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Scheme seems a good fit for the web because of three features: XML as s-expressions, first class continuations and an interactive REPL. These things make for nice frameworks like Blackhole for Gambit Scheme.

I was looking for a replacement for Java and RoR and eventually came to this solution. Gambit is very performant but, in common with most Schemes, is essentially single-threaded and everything halts when you call out to some C code. In order to get around this, I wrote a pure Scheme MySQL library so that database calls wouldn't block the internal Gambit threads. Then I had the same problem with SSL and soon realised that I couldn't possibly write all the libraries that I would need. The issue here is that there are probably too many Scheme implementations and not enough people using them.

At the point I decided to learn Haskell as it seemed to be the only functional language that had multi-processor support and great performance to boot. It has the advantage that there is only one implementation (GHC) and has a largish and very helpful user base - but you'll know this already !

I've been using Snap on a prototyping project and although it is low-level and relatively new, it has some great features such as the very flexible Heist templating library and, best of all, dynamic recompilation when you change anything. The recompilation, pretty much matches the REPL advantage of Scheme. BlazeBuilder comes close to s-exp XML expressibility and there is a sample continuations session library in mysnapsession - so it's getting there IMHO.

To be fair, I didn't look to deeply at PLT as performance seemed an issue, when compared with Gambit, and it seemed to have lots of non-standard extensions to Scheme which I was wary of.

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Indeed. Scheme is a great language, but it seems minimalism is the cause of incompatibility. I've been writing some simple library, and even R6^RS doesn't save from incompatibilities. –  Yasir Arsanukaev Feb 2 '11 at 15:28
How do Scheme's first class continuations compare to Haskell's Continuation monad? –  Ishpeck Feb 25 '11 at 15:50
Continuations in scheme are a core part of the language and in some implementations, like Gambit, can even be serialized to disk. Although I'm not that familiar with continuations in Haskell, my understanding is that they are confined to the Continuation monad which might be more limiting. –  Andrew Feb 25 '11 at 23:03

Sounds like you want people to make the case for the various languages and toolchains for you. Well, here's what I know about Haskell -- there's a lot of people, tools and experience to help you out:

I think there's no choice, really.

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Cheers for speedy reply Don, and also for your contributions to Haskell. I'll give happstack another look. Since I'm more familiar with Haskell I also wanted to see what life is like on the scheme side pertaining to the web. –  Robert E. Lester May 9 '10 at 3:17
Note that happstack 0.5 was released this week, so some of the backing material may be lagging: haskell.org/pipermail/haskell-cafe/2010-May/077218.html –  Don Stewart May 9 '10 at 3:35

[Note: We have renamed "PLT Scheme" to "Racket"; I will refer to it as that.]

"Rapid development."

I find Racket great for rapid development. If you follow the Continue tutorial on using Racket for Web, I think you will as well. You can start prototyping your application without ever saving a file, it's easy to integrate the many packages on PLaneT, and macros remove the burden of ever writing boiler-plate more than once.

"Easy to scale."

I've done a lot of research into scaling Web applications written in Racket. Racket Web applications can use stateful continuations (recorded in the server's RAM) or stateless (recorded in a serializable format and stored by users or databases/etc) or any combination of the two. A brief summary of these distinctions is described in the documentation. For each regime there are an assortment of ways of dealing with scale, such as stateful continuation management policies and stateless stuffers.

I've put a lot of thought into making the defaults scale well, but also easy enough to change for your circumstances.

On the less Web-specific front, we have native support for trendy scalable databases like MongoDB and memcached.

"Strong community for the web."

Apart from usage of our software in education, it seems we are most often deployed on the Web. If you scan through PLaneT you'll see a preponderance of Web-related libraries. I'm not sure of another metric for you.

"Quick and easy to deploy."

I think the rapid development point speaks to this. If you have other questions related to deployment, I'm happy to answer.

"I can find but one example of it being used in the 'real world'."

The guys at Untyped have a few products using it. I've written two commercial sites and at least four other reasonably large community sites. We know of a dozen or so contractors building applications using it. There are a few startups I've talked to that are using it as well. There's no point pretending we're as common as Python or Ruby, etc, but we're not purely academic or theoretical either.

If you have any other questions, feel free to email me directly or the mailing list, so others in our community can more easily benefit from the discussion. Happy hacking!

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Is there a performance/memory usage comparison between Racket VM and other popular language such as Python or PHP? –  holmescn Jul 4 at 5:15

While I love Don Stewart's extensive arguments for Haskell, I feel that Haskell suffers from an embarrassment of riches: there are just way too many options to choose from, too many packages on Hackage (of widely varying quality), and I wouldn't know where to begin. Whereas with PLT Scheme I think it's easy to know where to begin: you take whatever Shriram Krishnamurti and Jay McCarthy have been doing and build on that.

Disclaimer: I've written thousands of lines of Haskell, some of which is deployed. I've written only toy Scheme programs. So maybe being on the outside I get a rosier view of PLT Scheme webapps than is really justified. But although I love Haskell and the Haskell Platform, I really would have no idea where to begin with a webapp—I would have to do research on that mailing list and on all that other stuff Don talks about. I would find it quite intimidating to get started.

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Agreed. There is so much stuff the choice is a problem. I'd start with the happstack tutorial: tutorial.happstack.com –  Don Stewart May 9 '10 at 3:14
@Don: I already upvoted your answer, but why don't you edit it to suggest to people that tutorial.happstack.com is the right thread to pull on first? (I'd edit it myself but it feels impolite.) –  Norman Ramsey May 9 '10 at 3:18
Well, happstack is a framework, and the OP states they're not specifically interested in frameworks. –  Don Stewart May 9 '10 at 3:36
@Don: Ah. I don't think I even know what the work "framework" really means. Is it the same as "library", only dressed up to go out? Or claiming to solve all your problems? –  Norman Ramsey May 9 '10 at 15:34
It's sort of a reversal--a framework is usually more "an application with pieces missing", managing all the core control flow and infrastructure, calling out into user code as needed for custom behavior. In the case of building a GUI, for instance, a "framework" would generally control the main event loop and communication with the windowing system. Development with a framework tends to involve a skeleton application that's customized from outside in, rather than building up from a base. Give or take, at any rate, the term can be a bit hand-wavy sometimes... –  C. A. McCann May 9 '10 at 17:38

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