I recently took a look at Factor, and the idea of having a language based around the concept of a stack is very interesting. (This was my first encounter with a stack-oriented language.) However, I don't see any practical advantages of such a paradigm. To me, it just seems like more trouble than it's worth. Why would I use a stack-oriented language such as Factor or Forth?


I'm ignoring factors (excuse the pun) such as the availability of tools and libraries. I'm asking only about the language paradigm itself.

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    a wild guess - from the syntax it sounds like it might be possible to compile very efficiently. Perhaps you could expect a program written in Factor to be extremely quick. – Hamish Apr 8 '11 at 3:19
  • Another wild guess: Have you seen golfscript? If you get really good at it you can solve stuff in very small amount of code. golfscript.com/golfscript – Dair Apr 8 '11 at 3:26
  • @Hamish: Maybe, although that certainly isn't the case right now, yet people are still using these languages. – Sasha Chedygov Apr 8 '11 at 3:29
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    Postscript (and hence PDF too) use a stack language. – Jonathan Leffler Apr 9 '11 at 13:22
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    The stack is nice once you get used to it. For example, you can place something on the stack 10 lines before you need it, wait, and get it back off without any extra variables (which need to be named, documented, etc.). – new123456 Sep 10 '11 at 3:36
up vote 28 down vote accepted
+50

Stack orientation is an implementation detail. For example, Joy can be implemented using rewriting - no stack. This is why some prefer to say "concatenative" or "compositional". With quotations and combinators you can code without thinking about the stack.

Expressing yourself with pure composition and without locals or named arguments is the key. It's extremely succinct with no syntactic overhead. Composition makes it very easy to factor out redundancy and to "algebraically" manipulate your code; boiling it down to its essence.

Once you've fallen in love with this point-free style you'll become annoyed by even the slightest composition syntax in other languages (even if just a dot). In concatenative languages, white space is the composition operator.

  • Interesting, I've never thought of it in this way. Thanks! – Sasha Chedygov Sep 14 '12 at 23:34
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    This answer is deserving of like, a million upvotes but you can have +50 instead 'cause I'm poor. c: – cat Apr 5 '16 at 23:18
  • Holy smokes, thanks @cat! – AshleyF Apr 6 '16 at 18:57
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    @AshleyF Don't mention it :D I'd give a bounty for just "Joy can be implemented using rewriting" tbh – cat Apr 6 '16 at 18:59
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    "The role of the stack" section of Manfred von Thun's "A conditional term rewriting system for Joy" paper is interesting reading! kevinalbrecht.com/code/joy-mirror/j07rrs.html – AshleyF Apr 6 '16 at 19:06

I'm not sure whether this will quite answer your question, but you'll find that Factor describes itself as a concatenative language first and foremost. It just happens also to have a stack-based execution model. Unfortunately, I can't find Slava's blog post(? or maybe on the Factor Wiki?) talking about this.

The concatenative model basically means that you pass around "hunks of code" (well, that's how you program anyway) and composition looks like concatenation. Operations like currying are also easy to express in a stack-based language since you just pre-compose with code that adds one thing to the stack. In Factor, at least, this is expressed via a word called curry. This makes it much easier to do higher order programming, and mapping over sequences eventually becomes the "obvious way to do it". I came from Lisp and was amazed going back after programming in Factor for a bit that you couldn't do "obvious things" like bi in Lisp. It really does change how you express things.

Incidentally, it's wise not to get too hung up on the whole stack manipulation thing. Using the locals vocabulary (described here: http://docs.factorcode.org/content/article-locals.html), you don't have to worry about shuffling things around. Often there's a neat way to express things without local variables, but I tend to do that second.

  • But then why not just use a functional language? Surely it would be better suited for things like currying and high order programming. And I realize that you can (and should) abstract away the stack manipulation stuff in Factor and other languages, but then what's the point, in the first place? Thanks for your answer, though. – Sasha Chedygov Apr 13 '11 at 1:05

One of the important reasons stack-based languages are being developed is because the minimalism of their semantics allows straightforward interpreter and compiler implementation, as well as optimization.

So, one of the practical advantage of such paradigm is that it allows enthusiast people to easily build more complex things and paradigms on top of them.

The Scheme programming language is another example of that: minimalist syntax and semantics, straightforward implementation, and lots of fun!

For some people it's easier to think in terms of managing stacks than other paradigms. At the very least, doing some hacking in a stack-based language will improve your ability to manage stacks in general.

Aside: in the early days of handheld calculators, they used something called Reverse Polish notation, which is a very simple stack-based postfix notation, and is extremely memory efficient. People who learn to use it efficiently tend to prefer it over algebraic calculation.

  • One chunk of niceness that this gives you is you don't ever need to worry about operator precedence. No more tables of operator order, or indeed parentheses. Until you have got used to this, you won't really appreciate how annoying "ordinary" code can be. – bobbogo Aug 18 '16 at 14:42

We already have good answers and I know nothing about the Factor language.

However, I think it is worthing of commenting for completeness:

  • CPU Time -- The time cost of memory allocation in the stack is practically free: doesn't matter if you are allocating one or one thousand integers, all it takes is a stack pointer decrement. example
  • Memory leak -- There are no memory leaks when using stack only. That happens naturally without additional code overhead to deal with it. The memory used by a function is completely released when returning from each function even on exception handling or using longjmp (no referencing counting, garbage collection, etc).
  • Fragmentation -- Stacks also avoid memory fragmentation naturally. You can achieve zero fragmentation without any additional code to deal with this like an object pool or slab memory allocation.
  • Locality -- Data in stack favors the data locality, taking advantage of cache and avoiding page swaps.

Of course, it may be more complicated to implement, depending on your problem, but we shall favor stack over heap always we can.

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