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Wikipedia defines reflection as follows:

In computer science, reflection is the process by which a computer program can observe (do type introspection) and modify its own structure and behavior at runtime.[1]

Is there any major programming language (widely used in Academia or Industry) that doesn't support any form of reflection? All the examples I'm currently thinking of have at least limited support. But for C I'm for example not sure.

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closed as not constructive by Cody Gray, David Heffernan, Bo Persson, Paul R, Sean Owen Jan 21 '12 at 14:17

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I would think that most of the traditional procedural programming languages, e.g. BASIC, FORTRAN, C, Pascal, Modula-2, Ada, COBOL, etc, lack reflection ? – Paul R Jan 20 '12 at 21:41
I think that this is an issue of interpreted program vs compiled – Cratylus Jan 20 '12 at 21:51
Yes, there are a bunch. Though a well-intentioned question, this one looks to me like it's going to produce a long list of "I thought of another one" answers, which isn't really appropriate for this site. Voting to close. – Cody Gray Jan 20 '12 at 22:26
I'd also throw in Forth. – Alexey Frunze Jan 20 '12 at 22:53
@user384706: no, the limitation comes from the language design, not whether it's compiled or interpreted. Sometimes a particular implementation may have means to overcome the design limitations. I'd say, if your C compiler (and OS) lets your C program access all its memory (data and code) and the CPU registers that the program operates with (maybe with setjmp()/longjmp()), reflection becomes a mere exercise in low level coding for a particular platform. It doesn't have to be easy, though. – Alexey Frunze Jan 20 '12 at 23:03
up vote 7 down vote accepted

C, C++ dont have any forms of reflection. What can be done is embed debugging symbol in the executable with the compiler, and then process the symbol table from within the executable. However, this process must be implemented by the code (i.e. write code in c to break down and process the symbol table in the executable). Therefore, it isn't inherent in the language.

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C++ has typeof and dynamic_cast. – frast Jan 20 '12 at 21:35
GNU C implementation also support "typeof". It's a primitive kind of reflection, but it's something you can start with to make some interesting solutions. – PEdroArthur Jan 20 '12 at 21:37
C++ does not have typeof, but does have decltype (which is quite similar g++ typeof extension). – Jerry Coffin Jan 20 '12 at 21:40
typeof isnt actual reflection. I.e. it isnt evaluated at runtime rather compile time. – chacham15 Jan 20 '12 at 21:40
Maybe @frast meant typeid. In any case, the OPs definition says "modify its own structure" which C++ can't do. That's a fairly strict definition of reflection. I think most people would say "observe" counts as a form of reflection, albeit restricted. – smparkes Jan 20 '12 at 21:52

COBOL is a major language that does not. Nor any of the HDLs (VHDL, Verilog, ...).

I think a more interesting question is, what languages have complete access to their structure by "reflection"? (e.g, "what in this expression?" "What's the type of that expression?" "Build me a new class.", etc.) AFAIK, only LISP meets this requirement. Other languages provide some reflection at best but cannot entirely manipulate those langauges.

That leaves the question as to why one would add only partial reflection to a language. We make our languages Turing capable so that if we want to code something, we're pretty sure we can code it in our language. Why aren't our languages correspondingly "full reflection" capable?

One way out of this is to use program transformation systems (PTS), which are tools designed to manipulate code. A truly generic PTS (such as Stratego, DMS or TXL) can manipulate arbitrary programs in arbitrary way, providing what amounts to "full reflection". This allows one to do metaprogramming on arbitrary languages; you don't have to depend on your language committee or your compiler vendor to add bits and pieces of reflection capability.

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Javascript is also extremely reflective, in some ways more than Lisp (eg you can get the source text of a function after it's been defined). – Ryan Culpepper Jan 20 '12 at 23:19
Lisp gives you access to its content as easily interpreted structures (S-expressions, isomorphic to ASTs). JavaScript may give you back the source text of a function, but that isn't very helpful: now all you need is a full JavaScript parser/name resolver to figure out what you got. If you are willing to go that far, any language which will give you access to the source file from which it is compiled is equally good, and IMHO equally useless; the point of reflection is access in terms of the language elements and concepts, not text. – Ira Baxter Jan 21 '12 at 0:52
JavaScript also has eval, so you could get the source of a function, munge it a bit, and eval a new function based on it. I agree S-expressions have better usability (the mapping of language elements to values is more direct), but I think JavaScript reflection is equally powerful. – Ryan Culpepper Jan 21 '12 at 3:36
The point is that you want access to the language in terms of its elements and structures. If you are handed text, you have no access you didn't have when all you had was the raw text file. I don't see how eval helps; where does it let me shred a JavaScript function into its various scopes, etc.? – Ira Baxter Jan 21 '12 at 3:40