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Suppose you created a main() to deal with an exercise you asked your students.

Every student is supposed to write their own function, with the same API. And a single file will be created, with all functions and the main calling them.

Lets say: int studentname(int a, int b) is the function pattern.

One way I deal with it was using a vector of pointer to functions int (*func[MAX])(). But you need to fulfill the vector one by one func[0]=studentname;.

I wonder, is there a way a function can be called by its name somehow?

Something like: int student1(int a , int b), student2(), etc.

And in main somehow we could just call sscanf(funcname,"student%d",i); funcname();.

Do you have any other idea? Maybe

int studentname(int a, int b, char *fname)
    strcpy(fname, "studentname");

Anything creative will do! :)

Thanks! Beco

PS. I tried just a vector of functions, but C won't allow me! :)

int func[2]()={{;},{;}};

This way I could just give to each student a number, and voilá... But no way. It was funny though.

Edited: I'm using linux.

Edited 2: Thanks! I've accepted an answer that helped me, but I've also documented a complete example as an answer bellow.

share|improve this question
Generate the code? Some script to read your list of names, convert to correct format (e.g. all lowercase, all spaces and special chars removed) and just dump the call. – John3136 Nov 8 '12 at 0:03
A minimal example would be greatly appreciated. – Dr Beco Nov 8 '12 at 0:36 Example of cosine: ` *(void **) (&cosine) = dlsym(handle, "cos");` I think that is the call, isn't it? – Dr Beco Nov 8 '12 at 0:40
Something just occurred to me: what is the outcome of the student's function? Perhaps it's better to compile each student's code into executable which prints the result to standard out, and make a script (whatever language) which fork/exec-s each of the binaries, parses the output and validates/compares it? It has a lot of advantages (separation, possibility to kill process looping forever, etc.). – Code Painters Nov 8 '12 at 11:09
I've teaching and using this schema for a lot of exercices with different outcome. Specifically for the current exercise, its a sequence of choices, and each function should return an int that represents a choice. The combined choices leads to a path of possibilities, and new choices must be made. :) So, being simple an int, its better to get the number than parse the answer from stdout. But I agree, for other exercises, that could be a nice elegant solution! – Dr Beco Nov 8 '12 at 15:14
up vote 2 down vote accepted

Maybe a bit overcomplicating it, but spontaneous idea:

  • Compile all student source files into one shared library with the students' functions being exports.
  • Then enumerate all exposed functions, call and test them.

As an alternative:

  • Write a small tool that will compile all "student units" using a preprocessor define to replace a predefined function name with an unique name ("func1", "func2", etc.).
  • Then let the tool write a small unit calling all these functions while performing tests, etc.

And yet another idea:

  • Use C++ to write a special class template that's going to register derived classes in a object factory and just embed student's code using extern "C". Depending on the implementation this might look a bit confusing and overcomplicated though.
  • Then use the factory to create one instance of each and run the code.

Example for the approach with dlopen() and dlsym() (whether only one function per library or all - doesn't matter):

void *pluginlib = dlopen("", RTLD_NOW); // RTLD_NOW will load the file right away
if (!pluginlib)
    ; // failed to load
studentproc func = (studentproc)dlsym(pluginlib, "student1"); // this loads the function called "student1"
if (!func)
    ; // failed to resolve
func("hello world!"); // call the lib
dlclose(pluginlib); // unloads the dll (this will make all further calls invalid)
share|improve this answer
Before posting the question I was thinking about preprocessor. But I couldn't see a way out. – Dr Beco Nov 8 '12 at 0:26
It wouldn't be preprocessor only. Just a tool using the preprocessor for quick renaming/editing without actually touching the files. – Mario Nov 8 '12 at 0:32
How exactly would you do item 2: enumerate exposed functions and call them? I think that is my main doubt here, and it seems to be a good solution if possible. Is it with dlopen and dlsym, also suggested by others? – Dr Beco Nov 8 '12 at 0:35
Added a short example for dlopen()/dlsym(). I'm not really sure how to enumerate all functions in one file, sorry. :) – Mario Nov 8 '12 at 0:40
Thanks! Very useful. I'll add a minimal example to show the solution. But you deserve the accepted answer for that! – Dr Beco Nov 8 '12 at 1:27

Similar to what @Jamey-Sharp proposed:

  • ask each student to provide .c file with entry function of a given name/signature
  • compile each .c into a shared library, named by the student name, or given whatever unique name. This step can be easily automated with make or simple script.
  • make a simple host application which enumerates all .so files in a given directory, and uses dlopen() and dlsym() to get to the entry point function.
  • now you can simply call each student's implementation.

BTW, that's how plug-ins are implemented usually, isn't it?

Edit: Here's a working proof of concept (and a proof, that each student can use the same name of the entry point function).

Here's student1.c:

#include <stdio.h>

void student_task()
    printf("Hello, I'm Student #1\n");    

Here's student2.c:

#include <stdio.h>

void student_task()
    printf("Hello, I'm Student #2\n");    

And here's the main program, tester.c:

#include <stdio.h>
#include <dlfcn.h>

/* NOTE: Error handling intentionally skipped for brevity! 
 * It's not a production code!

/* Type of the entry point function implemented by students */
typedef void (*entry_point_t)(void);

/* For each student we have to store... */
typedef struct student_lib_tag {
    /* .. pointer to the entry point function, */
    entry_point_t entry;
    /* and a library handle, so we can play nice and close it eventually */ 
    void* library_handle;
} student_solution_t;

void load(const char* lib_name, student_solution_t* solution)
    /* Again - all error handling skipped, I only want to show the idea! */

    /* Open the library. RTLD_LOCAL is quite important, it keeps the libs separated */
    solution->library_handle = dlopen(lib_name, RTLD_NOW | RTLD_LOCAL);

    /* Now we ask for 'student_task' function. Every student uses the same name.
     * strange void** is needed for C99, see dlsym() manual.
    *(void**) (&solution->entry) = dlsym(solution->library_handle, "student_task");

    /* We have to keep the library open */

int main()
    /* Two entries hardcoded - you need some code here that would scan
     * the directory for .so files, allocate array dynamically and load 
     * them all.
    student_solution_t solutions[2];

    /* Load both solutions */
    load("./", &solutions[0]);
    load("./", &solutions[1]);

    /* Now we can call them both, despite the same name of the entry point function! */

    /* Eventually it's safe to close the libs */
    return 0;

Let's compile it all:

czajnik@czajnik:~/test$ gcc -shared -fPIC student1.c -o -Wall
czajnik@czajnik:~/test$ gcc -shared -fPIC student2.c -o -Wall
czajnik@czajnik:~/test$ gcc tester.c -g -O0 -o tester -ldl  -Wall 

And see it works:

czajnik@czajnik:~/test$ ./tester 
Hello, I'm Student #1
Hello, I'm Student #2
share|improve this answer
Cute--that seems like it should work. :-) – Jamey Sharp Nov 8 '12 at 0:27
Looks like dlsym and dlopen is the way to go. I'm just a little confused on how to use them, as I never used them before. I'll read more of the documentation if I can't find a minimum example that works at all. – Dr Beco Nov 8 '12 at 0:31
It's pretty straightforward. Only did it on Windows, but on Unix it's probably rather similar: With dlopen() you load the library which will return a handle. Then you use the handle together with dlsym() to obtain the address of a given function. Just cast it to the apropriate signature and you're done. And yes, that's essentially how plugins are usually done. – Mario Nov 8 '12 at 0:34
I'd say it's rather easy (and fun!) - dlsym() man page contains a simple example, see – Code Painters Nov 8 '12 at 0:35
It doesn't matter! Using dlsym() you can import multiple functions of the same name, from separate libraries. Unfortunately I had no chance to show any example yesterday (I have to sleep sometimes ;) - but let me do it now. I'll update my answer in a few minutes. – Code Painters Nov 8 '12 at 9:41

I'd take a different approach:

  1. Require every student to use the same function name, and place each student's code in a separate source file.
  2. Write one more source file with a main that calls the standard name.
  3. Produce a separate executable from linking main.c with student1.c, then main.c with student2.c, and so on. You might be able to use wildcards in a makefile or shell script to automate this.

That said, at least on Unix-like OSes, you can do what you asked for.

  1. Call dlopen(NULL) to get a handle on the symbols in the main program.
  2. Pass that handle and the function name you want to dlsym. Coerce the resulting pointer to a function pointer of the right type, and call it.
share|improve this answer
That won't do, because main need to call a combination of students and oppose results. – Dr Beco Nov 8 '12 at 0:12
Hmmm, that wasn't in your specification. :-) – Jamey Sharp Nov 8 '12 at 0:14
Sorry about that. But I also didn't say I would call only one at time! :P – Dr Beco Nov 8 '12 at 0:15
I'm reading about dlopen and dlsym. Sounds promising. I never used it, so I'm having a hard time to figure them out. – Dr Beco Nov 8 '12 at 0:23

Here is an ugly preprocessor hack:



${FILE_NAME}: main.c
        cc -Wall -DFILE_NAME=\"${FILE_NAME}.c\" -o $@ main.c -lm

Teacher's main.c:

#include <math.h>
#include <stdio.h>

#include FILE_NAME

char *my_name(void);
double my_sin(double val);

int main(void)
double dd;
dd = my_sin(3.1415923563);

printf("%s: %f\n", my_name(), dd);
return 0;

Student's .c File:

#include <math.h>

char * my_name(void);
double my_sin(double val);

char * my_name(void)
return "Wildplasser-1.0";

double my_sin(double val)
return sin (val);

The trick lies i the literal inclusion of the student's .c file.

To avoid this, you could also use a different make line, like:

 cc -Wall -o $@ ${FILE_NAME}.c main.c -lm

(and remove the ugly #include FILENAME, of course)

share|improve this answer
This doesn't work because I may need to call more than one student's function at a time, to hot compare results. But thanks! Nice catch. – Dr Beco Nov 8 '12 at 1:43
Hot compare: redirect stdout, and use plain ordinary diff (or a database) Since you supply the main() routine, you can instrument it at your will. – wildplasser Nov 8 '12 at 18:49

Thanks you all. I've accepted an answer that gave me the inspiration to solve the question. Here, just to document it, is my complete solution:

File shamain.c

/* Uses shared library
 * Compile with:
 *    gcc shamain.c -o shamain -ldl -Wall

#include <stdio.h>
#include <stdlib.h>
#include <dlfcn.h>

int main(void)
  void *libstud;
  int (*student[2])(int, int);
  char fname[32];
  int i,r;

  libstud = dlopen("./", RTLD_NOW);
  if (!libstud)
    fprintf(stderr, "error: %s\n", dlerror());
  dlerror();    /* Clear any existing error */

  for(i=0; i<2; i++)
    sprintf(fname, "func%d", i);
    *(void **) (&student[i]) = dlsym(libstud, fname); /* c99 crap */
    //student[i] = (int (*)(int, int)) dlsym(libstud, fname); /* c89 format */

  for(i=0; i<2; i++)
    r=student[i](i, i);
    printf("i=%d,r=%d\n", i, r);

  return 0;

File shalib.c

/* Shared library.
 * Compile with:
 *  gcc -shared -fPIC shalib.c -o -Wall

#include <stdio.h>

int func0(int one, int jadv)
  printf("%d = Smith\n", one);
  return 0;

int func1(int one, int jadv)
  printf("%d = John\n", one);
  return 0;
share|improve this answer
Ah, okay, skipping enumerating is another idea. :) Just to add: don't pass a file name to dlopen() allows you to get functions within the executable - so you don't even need the library. – Mario Nov 8 '12 at 11:35
Will I use libstud = dlopen(NULL, RTLD_NOW); ? Would I get functions from shamain.c? – Dr Beco Nov 8 '12 at 15:08
Yes, that will make it check your executable's symbol table for the functions. Not only shamain.c but any object file/translation unit linked into your executable. – Mario Nov 8 '12 at 22:44

It is a while since I have used shared libraries, but I have a feeling you can extract named functions from a DLL/shlib. Could you create a DLL/shared library containing all of the implementations and then access them by name from the main?

share|improve this answer
Oh, I should add, I'm using linux. But I believe your comment is platform free... Regarding it, well, I don't see exactly how. – Dr Beco Nov 8 '12 at 0:10

Per @william-morris's suggestion, you might have luck using dlsym() to do a dynamic lookup of the functions. (dlsym() may or may not be the library call to use on your particular platform.)

share|improve this answer

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