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 wondered if there is a programming language which compiles to machine code/binary (not bytecode then executed by a VM, that's something completely different when considering typing) that features dynamic and/or weak typing, e.g:

Think of a compiled language where:

  • Variables don't need to be declared
  • Variables can be created during runtime
  • Functions can return values of different types


  • Is there such a programming language?
  • (Why) not?

I think that a dynamically yet strong typed, compiled language would really sense, but is it possible?

share|improve this question
Um, C# 4.0?.... –  Robert Harvey Mar 31 '10 at 17:31
@Platinum: You can get machine code using NGen. –  Robert Harvey Mar 31 '10 at 17:35
@Platinum: Not sure I get your point. The machine code you get from C# and NGen might actually be of higher quality than some of the direct-to-machine-code native code compilers out there. The jitter is capable of some pretty substantial optimizations. A script to exe hack can't even be remotely considered to be the same thing. –  Robert Harvey Mar 31 '10 at 21:29
@Platinum: I don't think so. Read up on NGen here: msdn.microsoft.com/en-us/library/ht8ecch6.aspx. NGen produces code that can be executed by the processor directly. No bytecode interpreter is required. –  Robert Harvey Mar 31 '10 at 23:34
@Robert Harvey: I'm a little hurt that you would strawman me like this. Read carefully: I didn't say NGen did not generate machine code. And that's not my issue anyway. My issue is that you have to use it at all, as one of MULTIPLE steps required to take C# code down to machine language. C# compiles to an intermediate language. The compiled machine code is not intrinsic to the language. In that sense it is EXACTLY like a script-to-.exe tool, hackish as those tools might be. –  Platinum Azure Mar 31 '10 at 23:45

8 Answers 8

up vote 20 down vote accepted

I believe Lisp fits that description.


share|improve this answer

C# 4.0 has many, if not all of these characteristics. If you really want native machine code, you can compile the bytecode down to machine code using a utility.

In particular, the use of the dynamic keyword allows objects and their members to be bound dynamically at runtime.

Check out Anders Hejlsberg's video, The Future of C#, for a primer:


share|improve this answer

Objective-C might have some of the properties you seek. Classes can be opened and altered in runtime, and you can send any kind of message to an object, whether it usually responds to it or not. In that way, you can implement duck typing, much like in Ruby. The type id, roughly equivalent to a void*, can be endowed with interfaces that specify a contract that the (otherwise unknown) type will adhere to.

share|improve this answer

Objective-C has many of the features you mention: it compiles to machine code and is effectively dynamically typed with respect to object instances. The id type can store any class instance and Objective-C uses message passing instead of member function calls. Methods can be created/added at runtime. The Objective-C runtime can also synthesize class instance variables at runtime, but local variables still need to be declared (just as in C).

C# 4.0 has many of these features, except that it is compiled to IL (bytecode) and interpreted using a virtual machine (the CLR). This brings up an interesting point, however: if bytecode is just-in-time compiled to machine code, does that count? If so, it opens to the door to not only any of the .Net languages, but Python (see PyPy or Unladed Swallow or IronPython) and Ruby (see MacRuby or IronRuby) and many other dynamically typed languages, not mention many LISP variants.

share|improve this answer

I don't know of any language that has exactly those capabilities. I can think of two that have a significant subset, though:

  • D has type inference, garbage collection, and powerful metaprogramming facilities, yet compiles to efficient machine code. It does not have dynamic typing, however.
  • C# can be compiled directly to machine code via the mono project. C# has a similar feature set to D, but again without dynamic typing.
share|improve this answer

VB 6 has most of that

share|improve this answer
...but doesn't really compile to machine code (compiles to p-code). –  Robert Harvey Mar 31 '10 at 17:37
The default setting is to compile to native code. (You can change this in the project properties.) –  svinto Mar 31 '10 at 17:45

Python to C probably needs these criteria.

  1. Write in Python.

  2. Compile Python to Executable. See http://stackoverflow.com/questions/2136837/process-to-convert-simple-python-script-into-windows-executable. Also see http://stackoverflow.com/questions/2525518/writing-code-translator-from-python-to-c

share|improve this answer
Aren't you talking about/aren't all these "compilers" linkers that just package the python binaries together with the script in one executable? –  sub Mar 31 '10 at 21:59
@sub: how is "packaging binaries ... in one executable" not a compiler? Please provide some definition that excludes creating one executable from source. And some do translate into C before compiling the binary, FWIW. –  S.Lott Apr 1 '10 at 10:14
no it isn't. A compiler converts code to computer-readable binaries. Py2exe(and other systems) merely ships the Python executable alongside the Python script, thus, the original code still remains Python, and remains only executable by the Python executable. But there exist variations of the Python language that allow compilation to C, but it's never the original Python(like Cython) –  Manux Jul 14 '10 at 19:33
@Manux: After I run py2exe, I have an .exe which is directly executable by windows. Correct? How does this fail to meet the criteria as stated in the question? What's important is not your understanding of compilation. What's important is that the question is vague, and a lot of solutions are possible. –  S.Lott Jul 14 '10 at 19:35

In a similar vein to Lisp, there is Factor, a concatenative* language with no variables by default, dynamic typing, and a flexible object system. Factor code can be run in the interactive interpreter, or compiled to a native executable using its deploy function.

* point-free functional stack-based

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.