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Interpreted languages are usually more high-level and therefore have features as dynamic typing (including creating new variables dynamically without declaration), the infamous eval and many many other features that make a programmer's life easier - but why can't compiled languages have these as well?

I don't mean languages like Java that run on a VM, but those that compile to binary like C(++).

I'm not going to make a list now but if you are going to ask which features I mean, please look into what PHP, Python, Ruby etc. have to offer.

  • Which common features of interpreted languages can't/don't/do exist in compiled languages? Why?
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This should be community wiki because it does not have a definite answer (I'm not even sure it won't get closed). Please press 'edit' and check the 'Communit Wiki' box. –  R. Martinho Fernandes Mar 25 '10 at 15:20
    
Also, I don't think the distinction between Java and C++ is worth anything for this discussion. –  R. Martinho Fernandes Mar 25 '10 at 15:22
    
Take a look at stackoverflow.com/questions/2147662 for some similar ideas! –  Dario Mar 25 '10 at 15:29
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The answer is none. Compiler implementations can do anything interpreter implementations can. –  David Thornley Mar 25 '10 at 15:42

5 Answers 5

Whether source code is compiled - to native binaries, some kind of intermediate language (Java Bytecode/IL) - or interpreted is absolutely no trait of the language. It's just a question of the implementation.

You can actually have both compilers and interpreters for the same language like

  • Haskell: GHC <-> GHCI
  • C: gcc <-> ch
  • VB6: VS IDE <-> VB6 compiler

Certain language features like eval or dynamic typing may suggest a distinction between so called "dynamic languages" and static ones, but how this is run can never be the primary question.

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+1. When you run compiled Java, you're actually interpreting Java bytecode. I don't see a lot of differences, other than the fact that Ruby is human-readable and Java bytecode isn't. That's not relevant. If you think about it, we can dismiss the "artificial" distinction between compiled and interpreted, make the question moot, and think about the dynamic/static divide instead. –  R. Martinho Fernandes Mar 25 '10 at 16:01
    
@Martinho: Exactly. One could even call a standalone interpreter with the source included a compiler ;) –  Dario Mar 25 '10 at 16:05
    
I wonder if it would be possible to create a programming language that would be impossible to compile. –  Anderson Green May 13 '13 at 4:43
    
Moreover, at the bottom, machine code is simply interpreted by the processor. –  dader Aug 1 '13 at 16:52

Initially, one of the largest benefits of interpreted languages was debugging. That way you can get incredibly accurate and detailed information when looking for the reason a program isn't working. However, most compilers have become advanced enough that that is not too big of a deal any more.

The other main benefit (in my opinion anyway), is that with interpreted languages, you don't have to wait for eternity for your project to compile to test it out.

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Doesn't address the question. –  anon Mar 25 '10 at 15:24

You couldn't plausibly do eval, for example, for reasons I'd have thought were pretty obvious: exactly how would you implement it? Make the runtime contain a full copy of the compiler? Every time you wanted to evaluate a string (keeping in mind that each time it could be different!) you'd save the string to a file, run the compiler on it to make a DLL/shared-lib, then load that DLL/shared-lib and call your code? You can't see why this might be a wee bit impractical? ;)

You can find this kind of thing in dynamic languages all over the place that you can't do with static code short of basically running an interpreter, in effect, behind the scenes.

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I think you can do eval. And you said how already: Make the runtime contain a full copy of the compiler. That is how interpreted languages do it, right? Calling eval is nothing other than calling the interpreter. So, in a compiled languages it should be nothing other than calling the compiler. In .NET you can emit IL (some sort of assembly/bytecode) directly with having to "save string to file, ... load DLL". It's not that uncommon. Even though not many use something exactly like "eval", it's not that impractical. –  R. Martinho Fernandes Mar 25 '10 at 15:34
    
A real-world example: boo is compiled and has an interpreter. I would argue there's an eval somewhere in the bowels of the interpreter. Also, what Dario said. –  R. Martinho Fernandes Mar 25 '10 at 15:37
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I've seen a demo of REPL behavior for C#. So, eval can be done with compiled languages. –  John Fisher Mar 25 '10 at 15:39
    
@John Fisher: that was probably Anders Hejlsberg presentation in the PDC'08 (channel9.msdn.com/pdc2008/TL16). At the time he was using a prototype of a C# "beyond 4.0" language. –  R. Martinho Fernandes Mar 25 '10 at 15:43
    
Real-world example: Common Lisp. Good implementations are compiled. –  David Thornley Mar 25 '10 at 15:44

Continuing on from Dario - I think you are really asking why a compiled program can't evaluate statements at runtime (e.g. eval). Here's some reasons I can think of:

  • The full compiler would have to be distributed with the program (or be part of the program)
  • For an eval function to have access to type information and symbols (such as variable names and function names) in the environment it was used the original program would have to be compiled with those symbols accessible (compiled languages usually remove these symbols at compile time).

Edit: As noted neither of these reasons make it impossible for a language/compiler to be able to evaluate code at runtime, but they are definitely things that need to be taken into consideration when developing a compiler or when designing a language.

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Common Lisp has eval at runtime, and industrial-strength implementations are compiled. –  David Thornley Mar 25 '10 at 15:43
    
I'm not trying to say it's impossible for compiled programs to have an eval, I'm just giving some reasons why many languages don't have an eval. I'll update my answer to make this clear. –  CiscoIPPhone Mar 25 '10 at 15:46
    
The compiler can be distributed with the runtime, just like interpreters are not part of interpreted programs. Also, modern platforms like .NET and Java carry type information as metadata in the compiled units (assembly in .NET, JAR in Java). Only local variable names are stripped, because even local variables themselves can be entirely removed by optimizations. –  R. Martinho Fernandes Mar 25 '10 at 15:47
    
Yep - Concerning eval, see stackoverflow.com/questions/2261628/…: Might be interesting –  Dario Mar 25 '10 at 15:49

Maybe the question is not about interpreted/compiled languages (compile is ambiguous anyway) but about languages that do/don't carry their own compiler around with them? For instance we've said C++ could do eval with a handy compiler floating around in the app, and reflection presumably is similar in some ways.

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There are C compiler libraries that are designed for precisely that purpose: so you can embed a C compiler into your application for scripting using C. libtcc is one such example. –  Jörg W Mittag Mar 25 '10 at 18:25

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