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Here is what I want to do:

  1. Run a program and initialize some data structures.
  2. Then compile additional code that can access/modify the existing data structures.
  3. Repeat step 2 as needed.

I want to be able to do this with both C and C++ using gcc (and eventually Java) on Unix-like systems (especially Linux and Mac OS X). The idea is to basically implement a read-eval-print loop for these languages that compiles expressions and statements as they are entered and uses them to modify existing data structures (something that is done all the time in scripting languages). I am writing this tool in python, which generates the C/C++ files, but this should not be relevant.

I have explored doing this with shared libraries but learned that modifying shared libraries does not affect programs that are already running. I have also tried using shared memory but could not find a way to load a function onto the heap. I have also considered using assembly code but have not yet attempted to do so.

I would prefer not to use any compilers other than gcc unless there is absolutely no way to do it in gcc.

If anyone has any ideas or knows how to do this, any help will be appreciated.

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You should look at llvm/clang. But a REPL for C or C++ sounds like quite a task. –  Mat May 12 '12 at 14:43
Something to do with this? –  jperelli May 12 '12 at 14:43
I'd rather use real scripting language, except you can tell what's all this for –  LeleDumbo May 12 '12 at 14:44
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4 Answers

up vote 4 down vote accepted

I think you may be able to accomplish this using dynamic libraries and loading them at runtime (using dlopen and friends).

void * lib = dlopen("mynewcode.so", RTLD_LAZY);
if(lib) {
    void (*fn)(void) = dlsym(lib, "libfunc");

    if(fn) fn();

You would obviously have to be compiling the new code as you go along, but if you keep replacing mynewcode.so I think this will work for you.

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Loading should be supported, I'm not sure that un loading is supported in all cases however. –  Chris Stratton May 12 '12 at 15:13
@ChrisStratton: I'll confess I'm far from an expert on runtime loading, but the man page leads me to believe the symbols are unloaded at dlclose (specifically the RTLD_NODELETE flag). Take all that with a grain of salt though :). –  Stephen Newell May 12 '12 at 22:41
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There is one simple solution:

  1. create own library having special functions
  2. load created library
  3. execute functions from that library, pass structures as function variables

To use your structures you have to include same header files like in host application.


struct S {
    int a,b;


#include <iostream>
#include <fstream>
#include <dlfcn.h>
#include <stdlib.h>

#include "structs.h"

using namespace std;

int main ( int argc, char **argv ) {

    // create own program
    ofstream f ( "tmp.cpp" );
    f << "#include<stdlib.h>\n#include \"structs.h\"\n extern \"C\" void F(S &s) { s.a += s.a; s.b *= s.b; }\n";

    // create library
    system ( "/usr/bin/gcc -shared tmp.cpp -o libtmp.so" );

    // load library        
    void * fLib = dlopen ( "./libtmp.so", RTLD_LAZY );
    if ( !fLib ) {
        cerr << "Cannot open library: " << dlerror() << '\n';

    if ( fLib ) {
        int ( *fn ) ( S & ) = dlsym ( fLib, "F" );

        if ( fn ) {
            for(int i=0;i<11;i++) {
                S s;
                s.a = i;
                s.b = i;

                // use function
                cout << s.a << " " << s.b << endl;
        dlclose ( fLib );

    return 0;


0 0
2 1
4 4
6 9
8 16
10 25
12 36
14 49
16 64
18 81
20 100

You can also create mutable program that will be changing itself (source code), recompiling yourself and then replace it's actual execution with execv and save resources with shared memory.

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Even though LLVM is now used today mostly for its optimizations and backend roles in compilation, as its core it is the Low-Level Virtual Machine.

LLVM can JIT code, even though the return types may be quite opaque, so if you are ready to wrap your own code around it and don't worry too much about the casts that are going to take place, it may help you.

However C and C++ are not really friendly for this kind of thing.

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If nothing else works - in particular, if un-loading a shared library ends up not being supported on your runtime platform, you could do it the hard way.

1) use system() or whatever to execute gcc or make or whatever to build the code

2) either link it as a flat binary or parse whatever format (elf?) the linker outputs on your platform yourself

3) get yourself some executable pages, either by mmap()'ing an executable file or do doing an anonymous mmap with the execute bit set and copying/unpacking your code there (not all platforms care about that bit, but let's assume you have one that does)

4) flush any data and instruction caches (since consistency between the two is typically not guaranteed)

5) call it via a function pointer or whatever

Of course there's another option too - depending on the level of interaction you need, you could build a separate program and either launch it and wait for the result, or fork off and launch it and talk to it by pipes or sockets. If this would meet your needs, it would be a lot less tricky.

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