Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

In every Turing-Complete language, is it possible to create a working

  • Compiler for itself which first runs on an interpreter written in some other language and then compiles it's own source code? (Bootstrapping)

  • Standards-Compilant C++ compiler which outputs binaries for, e.g.: Windows?

  • Regex Parser and Evaluater?

  • World of Warcraft clone? (Assuming the language gets the necessary API bindings as, for example, OpenGL and the WoW source code is available)

(Everything here theoretical)

Let's take Brainf*ck as an example language.

share|improve this question
I'm currently implementing a WoW clone using sed, i'm looking for some developers interested –  LB40 Apr 8 '10 at 15:24
Sounds fun as far as I can tell (Don't really know sed) If you switch to 8086 assembler, I'm in :P –  I can't tell you my name. Apr 8 '10 at 15:28
I assume that you mean an Interpreter or an Executive, since a Compiler is a VonNuemann architecture dependent concept? –  RBarryYoung Apr 9 '10 at 5:56
Hmm, you do understand that all "Output" is highly architecture and implementation-dependent? –  RBarryYoung Apr 9 '10 at 5:58
Plus, even the concept of an "API" is not necessarily meaningful wrt something like a Turing-machine? –  RBarryYoung Apr 9 '10 at 5:59

8 Answers 8

In every Turing-Complete language, is it possible to create a working...

If one Turing-complete language can do it, then they all can. In this sense, they're all equally "powerful". Since everything you described already exists in at least one Turing-complete language, any of these programs can be written in any other Turing-complete language.

However, merely because something is possible doesn't mean it's easy, or even feasible. That's a hugely important distinction, and it's the crux of why different programming languages exist. They're not all equally good at making specific kinds of software -- if they were, we'd only need one language!

share|improve this answer
i don't see why it could be not feasible, if it's possilbe doesn't that mean that's feasible ? Do you have an example ? –  LB40 Apr 8 '10 at 15:25
@John +1. Q: Why is there more than one database? A: Because they all suck. –  Aaron Digulla Apr 8 '10 at 15:28
@LB: Possibility doesn't equal feasibility. Here's a trivial example. Imagine a Turing-complete language in which writing down the instruction "assign value x to symbol y" requires more memory than exists in the entire world. Such a language makes it possible to write Turing-complete programs, but it's not feasible to write them because it's not practical to actually encode the information you want. –  John Feminella Apr 8 '10 at 15:29
SQL is not Turing-Complete, may be extensions like PL/SQL –  hiena Apr 8 '10 at 15:37
@John: There's also potential performance issues. Does it count as a WoW clone with a frame rate of about 15 per century? Or are you going to say it's not a real clone if you can't go raiding with friends? –  David Thornley Apr 8 '10 at 18:59

Turing-Complete only express computation capability, nothing about I/O capability !

share|improve this answer
Typical StackOverflow: the wrong answers are mindlessly voted-up, and the only correct answers languish in obscurity. –  RBarryYoung Apr 9 '10 at 6:03

No, Turing completeness have nothing to do with I/O and hardwares. However, you can pretend I/O, hardware systems and graphic systems existed by using variables (or the "memory tape"). In BF, you could use the first 2 cells (x, y) for the "pretended" screen resolution, then another x times y cells for all pixels on the screen, then next cell (n) for the "pretended" filesystem size, then next n cells for the filesystem content...

share|improve this answer
The first correct answer I've seen here. –  RBarryYoung Apr 9 '10 at 6:02

Yes, of course, all of those. That's what "Turing-complete" means, after all: it can compute everything that can be computed.

share|improve this answer
I can't find a reference backing this up right now, but IIRC it is an open question whether or not there are computable problems that can't be solved by a turing machine. I think this is mostly due to a nebulous definition of what "computable" actually means. –  rmeador Apr 8 '10 at 16:00
@rmeador Turing invented his idealised machine precisely so that he could reason about what is and is not computable. The paper that introduced the TM concept was called "On Computable Numbers..." –  anon Apr 8 '10 at 17:20
@Neil Butterworth - but Turing's work on computability does involve a "hand-waving" aspect, in that it assumes that anything computable can be computed by a Turing machine, or equivalently it defines a computable algorithm as one for which a Turing machine program exists. The work of Kleene and Church is equivalent, and as Kleene said, it's all a bit vague and intuitive. –  Daniel Earwicker Apr 8 '10 at 18:45
@Daniel: They taught me about the "Church-Turing Thesis", which says that anything reasonably describable as computation can be represented by a Turing machine or equivalent form. So far, nobody's come up with a counterexample, but unless we can find a precise definition for "computable" it's not possible to prove it. –  David Thornley Apr 8 '10 at 18:53
@David Thornley - exactly, it's also called a "conjecture". It is a precise definition of "computable", as yet unchallenged, but it leaves open the far-fetched possibility that some useful form of algorithmic computability might require some capability not present in a Turing machine or (equivalently) the Church lambda calculus. –  Daniel Earwicker Apr 8 '10 at 19:26

All that being Turing-complete really requires is that you can do simple math, have some variables, and can do a while loop. Or any number of equivalent things. If you want to do real programs, you need a bit more (notably syscalls) and you have to worry about efficiency too (turing machines can be very slow...) In theory there's no difference between turing-equivalent systems, but in practice there is.

If anyone does a WoW client in BF, I will be very impressed!

share|improve this answer

Any algorithm that can be implemented in one Turing-Complete language can be implemented in any other. Your questions have more to do with the operating system services and APIs which must be made available through the language in question.

In short, the answer is yes to all of the above from a formal language point of view.

share|improve this answer

Theoretical, yes. But a much more interesting question is if it would be practically possible given a certain "esoteric" programming language.

share|improve this answer

Every Turing-Complete language could compute the same set of functions. So, a turing-complete language could do all what you wrote because that things are computed with other turing-complete languages.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.