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.

I'm planning on creating a very basic 'programming language', a compiler for it and a Virtual Machine for programs written with it to run on. All for fun and for practice.

In a different question, I described my design idea, and then asked if what I'm planning is actually considered a programming language, a virtual machine, and a bytecode.

The answer was that it would indeed be a very basic programming language. But since the compiled code will be plain text, and not of binary form - it won't be considered bytecode, but source code. And because of that, the VM won't be considered a VM, but an interpreter.

I will present my design and them ask something about it.

My design idea:

The steps for writing and running a program:

1 - The programmer writes the code in the compiler (a kind of IDE). Compilation happens as follows:

  • The compiler scans the code, and converts each line to op-code. For example, if the line of code is: print ("hello"), the compiler will convert it to something like p"hello" - this would be the op-code.

  • After scanning the entire code, we'll have a Bytecode file, composed of all the op-codes generated.

2 - Running the program (executing the Bytecode) is done as follows:

  • The program runs inside the Virtual Machine program. This program will scan the Bytecode loaded into it, and convert each op-code to some Java operation (since the VM program will be written in Java). For example, the VM will read the op-code p"hello", and in reaction execute: System.out.println("hello");.

My questions:

Do you agree that my 'VM' is actually in interpreter, and my 'bytecode' actually source code compiled to more compact source code?

If so, question 1: Are there professional programming languages that work in this manner?

Question 2: Anyhow, what would make my 'bytecode' actual bytecode, and my 'VM' an actual VM?

share|improve this question

closed as too broad by Antimony, gnat, Dukeling, lvc, zx81 Sep 5 at 7:58

There are either too many possible answers, or good answers would be too long for this format. Please add details to narrow the answer set or to isolate an issue that can be answered in a few paragraphs.If this question can be reworded to fit the rules in the help center, please edit the question.

My advicse: You should think less about labels like "bytecode", "interpreter", "VM" and the like. For example, if you will, every program is in some sense a "virtual machine", even a Hello-world program: the machine accepts any byte sequence, even the empty one, and interprets it as command to print "Hello World". –  Ingo Mar 7 at 9:12
And if your intermediate language may be called byte code or not, is simply a question of terminology. Still, I would understand bytecode as "non-human readable intermediate language" –  Ingo Mar 7 at 9:15
@Ingo Thanks for your comment. One thing I don't understand is how my program could be defined as an interpreter. An interpreter (correct me if I'm wrong), read a line of code - and translates it to another language. And so on. My program reads a line of code, and executes it. No translation at this stage. So how is it an interpreter? –  Aviv Cohn Mar 7 at 9:49
again, you're thinking about labels (words), instead of concepts. Let's say I call your program a xlerbycraz Is your program then better or worse than before? No, it is the same. Labelling doesn't make the slightest difference. - Not helpful in this context is that you misunderstand the words/labels that are so important to you. An interpreter translates to another language? Not really. That's what a translator does. Or, if you will, a compiler, which is a special form of a translator. –  Ingo Mar 7 at 11:51

1 Answer 1

Ingo is right, clear separation of interpreter, compiler and virtual machine is long gone. for example let's look at nowadays java virtual machines. they are are a state of art. they take a bytecode and run it, but sometimes they decide to pick some part of the bytecode and compile it to the native code on the fly. and some time later they can decompile it on the fly and continue the execution as a bytecode. so let's suppose they can take not only compiled bytecode but also the source code, and do the same. so what is it? a compiler? an interpeter? a jvm?

and what about all the lisps? during the 'compilation phase' some source code macros are executed. so is this part done by a compiler or by an interpreter?

when designing languages, some kind of intermediate representation (you call it a 'bytecode') is often used because it's simpler than the language itself so it's easier to optimize it. That's it. Don't pursuit any kind fuzzy concepts, just make your language and its tools fast and portable

share|improve this answer

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