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is there a magic variable in gcc holding a pointer to the current function ?

I would like to have a kind of table containing for each function pointer a set of information.

I know there's a _func_ variable containing the name of the current function as a string but not as a function pointer.

This is not to call the function then but just to be used as an index.

EDIT Basically what i would like to do is being able to run nested functions just before the execution of the current function (and also capturing the return to perform some things.) Basically, this is like __cyg_profile_func_enter and __cyg_profile_func_exit (the instrumentation functions)... But the problem is that these instrumentation functions are global and not function-dedicated.

EDIT In the linux kernel, you can use unsigned long kallsyms_lookup_name(const char *name) from include/linux/kallsyms.h ... Note that the CONFIG_KALLSYMS option must be activated.

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May I ask why are you trying to do this, there might be more suitable alternatives ? –  Hassan Syed Jan 28 '10 at 13:44
i would like to be able to register and replay (in any order) nested functions inside this function without making an actual code. The thing is that i'm generating the nested functions but i don't really know the name of the function in which i generate my nested functions. I wanted to avoid modifications to the parser. –  LB40 Jan 28 '10 at 13:51
Are the amount of functions in the design finite ? or will you be adding functions ad hoc ? –  Hassan Syed Jan 28 '10 at 13:54
No i will add functions in an ad hoc way –  LB40 Jan 28 '10 at 14:36
I suggest using the C++ functors idiom then -- If you can, it wouldn't be that much overhead compared to plain C. You don't have to use boost -- functors are quite simple to implement. loki-lib.sourceforge.net/index.php?n=Pattern.Command There are some more links in my answer below :D –  Hassan Syed Jan 28 '10 at 14:39

13 Answers 13

up vote 2 down vote accepted

Here's a trick that gets the address of the caller, it can probably be cleaned up a bit. Relies on a GCC extension for getting a label's value.

#include <stdio.h>

#define MKLABEL2(x) label ## x
#define MKLABEL(x) MKLABEL2(x)
#define CALLFOO do { MKLABEL(__LINE__): foo(&&MKLABEL(__LINE__));} while(0)

void foo(void *addr)
    printf("Caller address %p\n", addr);

int main(int argc, char **argv)
    return 0;
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Using __builtin_return_address(0) inside foo(), instead of passing the address of a label, is a simpler way of doing pretty much the same thing. (That gives the address of the instruction after the call to foo(), rather than the address of a constant load just before the call; but neither of those are the actual address of the function anyway...) –  Matthew Slattery Jan 28 '10 at 23:59
@Matthew: That's so much nicer than this hack. –  Hasturkun Jan 29 '10 at 0:15
#define FUNC_ADDR (dlsym(dlopen(NULL, RTLD_NOW), __func__))

And compile your program like

gcc -rdynamic -o foo foo.c -ldl
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:-)... sneaky, but i fear that changing the compilation flag to include all the symbols + the inclusion of dlfcn.h, is not possible. –  LB40 Jan 28 '10 at 16:09
void f() {
   void (*fpointer)() = &f;
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yep , that's how you would hard code the information inside the function :D swings and roundabouts really. This solution is not as elegant as doing this work outside the function --- than that work can potentially be code generated. –  Hassan Syed Jan 28 '10 at 13:46
:-D... I wanted something more generic...without knowing the name of f. a kind of generic line you could in any function ... –  LB40 Jan 28 '10 at 13:48
@LB yep this solution is messy, generating out a framework is probably your best bet (but explain the problem further please). –  Hassan Syed Jan 28 '10 at 13:50
With more info on what you are actually trying to achieve you could get alternatives. –  David Rodríguez - dribeas Jan 28 '10 at 13:51
@LB Post some code in your question that illustrates what you would like your usage of such a feature (if it existed) to look like. –  anon Jan 28 '10 at 13:51

If you went for C++ the following information might help you:

Objects are typed, functors are functions wrapped as objects, RTTI allows the identification of type at runtime.

Functors carry a runtime overhead with them, and if this is a problem for you I would suggest hard-coding the knowledge using code-generation or leveraging a OO-heirarchy of functors.

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I think you could build your table using strings (the function names) as keys, then look up by comparing with the __func__ builtin variable.

To enforce having a valid function name, you could use a macro that gets the function pointer, does some dummy operation with it (e.g. assigning it to a compatible function type temporary variable) to check that it's indeed a valid function identifier, and then stringifies (with #) the function name before being used as a key.


What I mean is something like:

typedef struct {
  char[MAX_FUNC_NAME_LENGTH] func_name;
  //rest of the info here
} func_info;

func_info table[N_FUNCS];

#define CHECK_AND_GET_FUNC_NAME(f) ({void (*tmp)(int); tmp = f; #f})

void fill_it()
  int i = -1;
  strcpy(table[++i].func_name, CHECK_AND_GET_FUNC_NAME(foo));
  strcpy(table[++i].func_name, CHECK_AND_GET_FUNC_NAME(bar));
  //fill the rest

void lookup(char *name) {
  int i = -1;
  while(strcmp(name, table[++i]));
  //now i points to your entry, do whatever you need

void foo(int arg) {
  //do something

void bar(int arg) {
  //do something

(the code might need some fixes, I haven't tried to compile it, it's just to illustrate the idea)

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I'm not sure to understand what you mean. I may be wrong but FUNC is a string (AFAIK this is not a preprocessor variable but part of the C standard) and node an identifier, this is equals to the name of the function with quotes. What is the macro that gets the function pointer ? –  LB40 Jan 28 '10 at 15:26
@LB The preprocessor is part of the C standard. AFAIK __FUNC__ is a preprocessor variable/macro, just as __FILE__ and __LINE__. About getting the pointer, that is what my solution tries to avoid. I'll update the answer to make it clearer. –  fortran Jan 28 '10 at 17:09
It's actually __func__, and unlike __FILE__ and __LINE__ it's a predefined identifier (not macro). It has to be done at the compiling stage rather than preprocessing, because the extent of a function (and therefore which one you're inside, if any) depends on the result of preprocessing. –  caf Jan 28 '10 at 20:59
good to know, but there actually is a macro called __FUNCTION__ that is what I meant... I got confused by reading __func__ in the question. I'll update the answer. –  fortran Jan 28 '10 at 23:37
I don't understand why, but one of my previous comments was removed. To know more about _FUNCTION_ go to : gcc.gnu.org/onlinedocs/gcc/Function-Names.html –  LB40 Jan 29 '10 at 13:23

No, the function is not aware of itself. You will have to build the table you are talking about yourself, and then if you want a function to be aware of itself you will have to pass the index into the global table (or the pointer of the function) as a parameter.

Note: if you want to do this you should have a consistent naming scheme of the parameter.

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More of a question than an answer, but could you use ASM to look at the instruction pointer?

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yep even if it's really ad hoc, i guess i could do it. –  LB40 Jan 28 '10 at 15:06
That's going to be quite hard... –  Stefano Borini Jan 28 '10 at 15:17
@Stefano, could you elaborate why ? –  LB40 Jan 28 '10 at 15:21
That would be a hack, and you are going to have to write these hacks for every architecture you port to :D –  Hassan Syed Jan 28 '10 at 15:46
because the instruction pointer will refer to the current executed instruction, not to the start of the function. If you put asm, the instruction pointer will refer to the current asm instruction. You will then have to backtrack the start of the function, which is hard if not impossible, and in any case highly fragile due to unpredictable compiler optimization strategies. –  Stefano Borini Jan 28 '10 at 15:54

If you want to do this in a 'generic' way, then you should use the facilities you already mention (__cyg_profile_func*) since that is what they are designed for. Anything else will have to be as ad hoc as your profile.

Honestly, doing things the generic way (with a filter) is probably less error prone than any new method that you will insert on-the-fly.

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sure, but there's no way to select a different behavior for different behavior and the instrument-functions flag is not something i want to turn everywhere... –  LB40 Jan 28 '10 at 15:05

You can capture this information with setjmp(). Since it saves enough information to return to your current function, it must include that information in the provided jmp_buf.

This structure is highly nonportable, but you mention GCC explicitly so that's probably not a blocking issue. See this GCC/x86 example to get an idea how it roughly works.

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setjmp() is not magical - it only knows the current instruction pointer - not the address of the current function... –  Hannes Landeholm Nov 30 '12 at 19:34

If you want to do code generation I would recomend GSLGen from Imatix. It uses XML to structure a model of your code and then a simple PHP like top-down generation language to spit out the code -- it has been used to generate C code.

I have personally been toying arround with lua to generate code.

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Another option, if portability is not an issue, would be to tweak the GCC source-code... any volunteers?!

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I've done that, i want to avoid that. –  LB40 Jan 29 '10 at 13:21

static const char * const cookie = __FUNCTION__;

__FUNCTION__ will be stored at the text segment at your binary and a pointer will always be unique and valid.

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ok, maybe we got a problem if two functions have the same name. (namespaces). –  decembersoul Sep 17 '12 at 11:41
__func__ is the same as __FUNCTION__ so this is useless. The author needs a pointer to function not pointer to string. Function Names - GCC –  cprogcr Sep 22 '12 at 7:57

If all you need is a unique identifier for each function, then at the start of every function, put this:

static const void * const cookie = &cookie;

The value of cookie is then guaranteed to be a value uniquely identifying that function.

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another trick hard coded inside the function rather then externally. –  Hassan Syed Jan 28 '10 at 14:05
This will break if the compiler optimizes for space by giving two cookies the same address - given that the cookies are const, I am pretty sure this optimization would be allowed. –  Justin Smith Jan 28 '10 at 16:03
I'm sure the compiler wouldn't -- two different objects must have addresses that compare non-equal. –  ephemient Jan 28 '10 at 16:08
As ephemient points out, we prevent that optimisation when we take the address of the object. The only exception to the rule about distinct objects having unique addresses is string literals, which may be merged - but that is explicitly allowed. –  caf Jan 28 '10 at 20:56

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