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4 points by nlavine 6134 days ago | link | parent

I would argue that speed is a property of programs and compilers rather than languages. For instance, this Arc program to compute the factorial of n:

  (def factorial (n)
    ((afn (a r)
       (if (= r 1) r (self (* a r) (- r 1))))
     1 n))
is very similar to this C program:

  long factorial(long n)
  {
    long a;
      while (n != 1) {
        a *= n;
        n--;
      }
  }
The only real difference is Arc's arbitrarily-sized integers, which you could probably turn off with a flag (or, better yet, implement in C - I think there's a GNU library for this).

It should be possible to write a fairly simple scanner for Arc that looks at an Arc program and decides whether it is trivially convertible to an equivalent C program. If it is, the Arc program could be converted. If, as I imagine, the mapping would let you write any C program as an Arc program, you could then argue that Arc was as fast as C.

The question would be, what about the features of Arc that aren't trivially convertible to C, like ccc? One response would be, "well, ccc is a pretty hard function to implement in C, but that's just a property of what ccc does - to implement the equivalent functionality, you just need this much complexity. A C programmer who wanted to use continuations would have to write the same function, so the slowness is not really because of Arc."

In other words, Arc gives you easy access to complex and hard-to-implement functions. This doesn't mean Arc is slow, just that Arc is powerful. One line of Arc code is probably much slower, on average, than one line of C code, but we don't really mind this, because the Arc code is referencing algorithms that, if they were implemented in C, would be just as slow as the Arc implementations. I think that is the true definition of speed, and the only fair one to hold Arc to. It implies, however, that speed will always be a property of individual programs and implementations, and not of languages.



4 points by sramsay 6134 days ago | link

You're absolutely right: speed is a property of programs/compilers and not languages. And because of this, there's really no reason why we couldn't have an implementation of Arc that compiles to C (using, perhaps, Chicken Scheme's astonishing method), one that targets the JVM, one that's designed to be embedded, and so forth.

But this is really a socio-political decision, is it not? Do we (either PG or this burgeoning community of fans) prefer a benevolent dictatorship of the sort that governs languages like Perl and Ruby, or do we prefer the ramified computational episteme of modern Scheme?

There are good arguments on both sides, but I really think that letting a thousand flowers bloom (as the Scheme community has done) has great advantages. We get to use Scheme in lots of varied environments, with lots of different hardware, and with implementations optimized for lots of specialized tasks. This abundance is in part facilitated by Scheme's minimalistic standard, of course, and that has its own drawbacks -- code portability being the most serious one.

Personally, I'm not sure I'm down with the idea of a lisp optimized for "web applications" or "exploratory programming." It seems to me that the strength of Lisp lies precisely in its ability to become a language for "x programming." Ironically, PG himself has made some of the most eloquent arguments out there for this idea.

It seems to me that implementors are the ones who should take Arc and turn it into a "language for hacking cell phones" or whatever. Some domains will put a premium on speed, others on "smallness," still others on "embededness" or what have you. Nothing in the language should foreclose these options, but as you said, it's not clear that languages ever do. In the case of Lisp, we could write a compiler in which every function and macro is converted directly into highly optimized assembly. I don't think there's anything in Arc or any other language that would prevent that.

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3 points by pgwoden 6134 days ago | link

As I have no doubt that it is possible to create an Arc implementation that delivers fast execution, it is precisely the socio-political issue that I intended to address in opening this thread.

As long as Arc is implemented in MzScheme, the best it can do is asymptotically approach MzScheme's performance. The discussion in this thread suggests that Arc will not forever be implemented in this way, so the limitation will be lifted. Just how much interest there is in greased-lightning performance is not clear to me.

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7 points by sramsay 6134 days ago | link

Well, speaking only for myself . . .

I'm an English professor who does various kinds of computational analysis on large text corpora (so things like string handling, XML, and regex are really important to me). I've been known to write programs that take three weeks to run in Java, so I'm always looking for ways to make my programs fast without resorting to C. Nothing against C. It's one of my favorite languages. It's just not a lot of fun for string processing.

Basically, I always want to go high and fast with my languages, and that's one of the reasons I like Lisp. It's a super high level language, but (in my usage patterns) it outperforms languages like Ruby (which I adore) and Java (which I find increasingly annoying).

Now, my particular usage is perhaps a bit obscure, but it may generalize to other areas. I can't believe I'm the only one doing lots of text processing who wants a fast, high level language. In the end "web application programming" is really just a special case of text processing, so it may align with PG's goals at some more fundamental level.

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1 point by sacado 6134 days ago | link

I want a dictatorship ! :)

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