Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

I have implemented a linked list in C (not C++) that stores pointers to data. I would like to have multiple declarations for its functions (to provide type safety), but have each of them link to the same definition (because there is no actual difference between pointers to different data types, so using the same code reduces space).

Does anyone have any ideas on how to achieve this (or any better ways to do it)? A portable solution is obviously best, but I really just need something that works in GCC.

share|improve this question
Does writing multiple declarations really give you any type safety? I'm assuming you'd have insert/remove functions that are overloaded - what prevents you from inserting with one type, and removing with another? – derekerdmann May 23 '13 at 1:35
@derekerdmann: One of the declarations would take an int* (for instance), so the compiler would complain if you tried to pass that declaration a myStruct*. The definition would take a void*. The compiler would see each declaration as a separate function, and they only become the same when the linker gets to them. – user2405854 May 23 '13 at 1:41
The declaration also needs to take a void* for the myStruct* to be accepted - that's what the compiler looks at when it's figuring out if the arguments match, not the definition. – derekerdmann May 23 '13 at 2:17
@derekerdmann: Sorry; I was not clear enough. There would be multiple declarations of the form add_int(int*), add_myStruct(myStruct*), etc. That way, the compiler would not allow giving add_int a myStruct, like you said. That is where the type safety comes from. Then, at the linking stage, all of the declarations get linked to the generic add(void*) to eliminate redundancy. – user2405854 May 23 '13 at 2:25
Except it's not really giving you type safety. The linked list operates on void*, so there's nothing preventing you from calling add_int to insert a value, and get_myStruct to remove the exact same value. It's not actually making your operations safer, and it's up to you to keep track of which types are stored in which lists. – derekerdmann May 23 '13 at 2:28
up vote 1 down vote accepted

I believe you might be able to achieve this using typedefs for function prototypes and casting the generic solution (which deals in void*s) to the specific prototype. This should be safe for compilation because all pointers would be the same size.

Consider this example:


typedef void (*do_something_with_int_t)(int *i);
extern do_something_with_int_t do_something_with_int;

typedef void (*do_something_with_string_t)(char *s);
extern do_something_with_string_t do_something_with_string;


#include "do_something.h"

void do_something_generic(void* p) {
    // Do something generic with p

do_something_with_int_t do_something_with_int =

do_something_with_string_t do_something_with_string =

As long as do_something_generic is truly datatype-agnostic (i.e. it really doesn't matter what p points to) then this would be OK.

share|improve this answer

If it's C (not C++), then the following will work just fine. You can adapt the concept to your needs.


typedef struct {
    int ii;
} Type_1;

typedef struct {
    int ii;
} Type_2;

int foo_1(Type_1* ptr) __attribute__((alias("foo")));
int foo_2(Type_2* ptr) __attribute__((alias("foo")));


#include <stdio.h>

#include "tt.h"

int main() {
    Type_1 t_1;
    Type_2 t_2;

int foo(void* arg) {
    printf("foo: %p\n", arg);
share|improve this answer
This will work in GCC, but __attribute__ isn't portable. – Anthony Arnold May 23 '13 at 2:24
@anthony-arnold: I do not really care about portability, so I am going to use Ziffusion's answer in my code (for efficiency; I believe your answer takes an extra instruction or two per call). However, I am accepting your answer because it is the more general answer for someone who might come across this question later. Thank you to both of you! – user2405854 May 23 '13 at 2:31
@LonelyIsland See this question for an examplanation re efficiency. A good compiler will generate virtually the same machine code. – Anthony Arnold May 23 '13 at 2:40
@anthony-arnold: I had figured that GCC would optimize it away, but I was thinking about the non-optimized cases... I do not know why. Anyway, good point, and I suppose I will be using your way after all. – user2405854 May 23 '13 at 2:52
@LonelyIsland The non-optimized case can be drastically different depending on your compiler. MSVC wraps the function-pointer call in a function which sanity-checks the stack. But that's for a debug build, and you have to accept the sacrifice in order to develop your code properly. For a release, you would turn on optimisations. – Anthony Arnold May 23 '13 at 3:30
#include <stdio.h>
struct common_type {
    int type;

struct type1 {
    int type;
    int value;

struct type2 {
    int type;
    char* p;

int func(void *para) {
    switch (((struct common_type*)para)->type) {
        case 1:
            printf("type1,value:%d\n",((struct type1*)para)->value);
        case 2:
            printf("type2,content:%s\n",((struct type2*)para)->p);

int main() {
    char *s = "word";
    struct type1 t1 = {1,1};
    struct type2 t2;
    t2.type = 2;
    t2.p = s;
share|improve this answer
Did you even read the question? Your answer addresses the common problem of multiple definition, which is NOT what my question is about. My question is about practically the opposite, using one definition for multiple declarations. I appreciate that you put in the effort to help, but I would appreciate it more if you put that effort towards the right question. – user2405854 May 23 '13 at 2:00
In this case,put the defintion in a header file,and declarations in files which use the struct. I have write some code addational,did you mean that? – vvy May 23 '13 at 2:15
No; that still addresses the wrong question. I am looking for a way to have multiple declarations all get linked to the same "generic" function. – user2405854 May 23 '13 at 2:21
@LonelyIsland Okay, I've updated a piece of new code, the older ones have been deleted. – vvy May 23 '13 at 2:38

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.