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.

We know that a compiler can be written in its own language using a trick known as bootstrapping. My question is whether this trick can be applied to interpreters as well?

In theory the answer is certainly yes, but there is one worry that the interpretation of source code will become more and more inefficient as we go through the iterations. Would that be a serious problem?

I'm bootstrapping a very dynamical system where the programs will be constantly changing, so it rules out a compiler.

Let me spell it out this way:

Let the i's be interpreters.

Let the L's be programming languages.

  • We can write i1 in machine code (lowest level), to interpret L1.
  • We then write i2 in L1, interpreting L2 -- a new language.
  • We then write i3 in L2, interpreting L3 -- another new language.
  • and so on...

We don't need any compiler above, just interpreters. Right?

It could be inefficient. That is my question, and how to overcome it if it is indeed inefficient.

share|improve this question
If you don't know if this is possible, you almost certainly should not try to create your own programming language. Also, it is not true that you cannot have a dynamic system which is compiled. –  Marcin Mar 24 '12 at 17:40
This is not really bootstrapping. Bootstrapping means you compile a language A on a compiler written in language A. This cannot be applied to interpreters, because if interpreter B is interpreting an interpreter for itself, and there is no other language involved, then where exactly is B running? Logic tells us that there must be another language (probably machine code) involved, which means something was compiled. What you're talking about is an interpreter stack. The PyPy project has some experience building a Python interpreter in Python (albeit a restricted subset): pypy.org. –  Travis Athougies Jun 25 '13 at 22:51

3 Answers 3

That doesn't make sense. An interpreter doesn't produce a binary, so can't create something that can run itself standalone. Somewhere, ultimately, you need to have a binary that is the interpreter.

Example of a compiler bootstrapping. Let's say we have two languages A(ssembler) and C. We want to bootstrap a C compiler written in C. But we only have an assembler to start with.

  1. Write basic C compiler in A
  2. Write C compiler in C and compile with earlier compiler written in A
  3. You now have a C compiler which can compile itself, you don't need A or the original compiler any more.

Later runs become just

  1. Compile C program using compiler written in C

Now let's say you have an interpreted language instead, I'll call it Y. The first version can be called Y1, the next Y2 and so on. Let's try to "bootstrap" it.

First off we don't have anything that can interpret Y programs, we need to write a basic interpreter. Let's say we have a C compiler and write a Y1 interpreter in C.

  1. Write Y1 interpreter in C, compile it
  2. Write Y2 interpreter in Y1, run it on Y1 interpreter written in C
  3. Write Y3 interpreter in Y2, run it on Y2 interpreter running on Y1 interpreter... Written in C.

The problem is that you can never escape the stack of interpreters as you never compile a higher level interpreter. So you're always going to need to compile and run that first version interpreter written in C. You can never escape it, which I think is the fundamental point of the compiler bootstrapping process. This is why I say your question does not make sense.

share|improve this answer
It does makes sense, albeit not efficiently: an interpreter takes a program and executes it (without generating a binary); now what if we feed a newer version of the interpreter to itself? It will start interpreting in the new way. No binary is needed. So, it works; the question is how to make it efficient. –  Yan King Yin Mar 24 '12 at 18:45
It does make sense, even if the interpreters are stacked up -- it's just a form of recursion. And step 1 does not need a compiler either, it can be an interpreter, with no code output. My question is precisely how to make it efficient, and partial evaluation may be the answer (a friend just told me). –  Yan King Yin Mar 26 '12 at 11:33

This sentence does not seem to make sense:

I'm bootstrapping a very dynamical system where the programs will be constantly changing, so it rules out a compiler.

No matter if you have an interpreter or a compiler: both will have to deal with something that is not changing, i.e. with your language. And even if the language is somehow "dynamic", then there will be a meta-language that is fixed. Most probably you also have some low-level code, or at least a data structure the interpreter is working with.

You could first design and formalize this low-level code (whatever it is) and write some program that can "run" this. Once you have this, you can add a stack of interpreters and as long as they all produce this low level code, efficiency should not be an issue.

share|improve this answer
See my edit -- I'm upset that I received many down votes because apparently people don't understand my question... –  Yan King Yin Sep 6 '12 at 21:46
Also, in my example, nothing is fixed (other than machine code), and the languages keep changing. It seems to contradict your opinion that this is impossible. –  Yan King Yin Sep 6 '12 at 22:07

You can indeed, and this is the approach used by squeak (and I believe many other smalltalks). Here is one approach to doing just that: https://github.com/yoshikiohshima/SqueakBootstrapper/blob/master/README

share|improve this answer
Can you explain the process in English? :) –  Yan King Yin Mar 24 '12 at 18:46
@YanKingYin No, it's not my project. Once again, if this is too complex for you, you should not be embarking on creating a new language. The world has many, many, programming languages already, and you are likely to be reinventing the wheel unless you already know a lot about existing languges and language design. –  Marcin Mar 24 '12 at 18:49
I'm implementing an inductive and abductive fuzzy-probabilistic higher-order logical-functional language, that can potentially understand English. I have been researching this topic for 8 years, but only recently do I realize that bootstrapping is highly desirable to implement it. So I'm learning that aspect now... :) –  Yan King Yin Mar 24 '12 at 19:13
@YanKingYin In that case...you are cleared for takeoff! –  Marcin Mar 24 '12 at 19:49
Also, that web page you linked talks about a Squeak compiler but there's no mention of an interpreter being bootstrapped.... –  Yan King Yin Mar 24 '12 at 21:00

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.