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Is there a way to reset variables declared as static within a function? The goal is to make sure that the function is not called with lingering values from an unrelated call. For example, I have a function opearting on columns of a matrix.

int foo(matrix *A, int colnum, int rownum){
static int whichColumn;
static int *v; //vector of length A->nrows 
   if (column != whichColumn){
    memset(v,0,size);
    whichColumn = which;
   } 
   //do other things
}

The function is called n times, once for each column. Is this a proper way of "re-setting" the static variable? Are there other general fool-proof ways of resetting static variables? For example, I want to make sure that if the call is made with a new matrix with possibly different dimensions then the vector v is resized and zeroed etc. It seems the easiest way may be to call the function with a NULL pointer:

int foo(matrix *A, int colnum, int rownum){
static int whichColumn;
static int *v; //vector of length A->nrows 
   if (A == NULL){
    FREE(v);
    whichColumn = 0;
   } 
   //do other things
}
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2  
Don't use static/global variables. Instead pass the function a pointer to an integer which the caller maintains for preserving state across calls. –  R.. Aug 15 '10 at 18:28
    
I've just had a similar problem wehre I had to reset my static variables but only in my test code. My hack was to set input pointers to NULL, check for that in the func then reset variable as appropriate - effectively using a NULL value in an existing parameter as a flag. a bit smelly but it works. –  bph Jan 19 '12 at 12:55
    
a class with static member variables would be your ideal solution perhaps, but with C (no OOP) maybe a static struct is probably the nearest elegant solution. –  bph Jan 19 '12 at 12:58
    
sorry re-read your initial post more carefully - I've effectively come up with the exact same solution, quick and dirty - can't think of anything better that would be as quick to implement –  bph Jan 19 '12 at 20:56

4 Answers 4

up vote 0 down vote accepted

I'd recommend turning it into a struct and writing a small helper function for managing the semantics of what you're trying to do. It could return the buffer if the request is appropriate for its size, or create a new one on demand (and free the old one) if necessary.

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Write a wrapper class? In C? –  Beta Aug 15 '10 at 18:51
    
Whoops, how about a struct + helper function? –  Jesse Collins Aug 15 '10 at 19:02
    
Thanks Jesse, I used a hybrid of the teo approaches as my comment to Borealid indicates. "Reset" is still managed by the function to hide details outside. I do not know C++, so wrapper class is ootq. –  Sue Aug 17 '10 at 9:37

Use an idempotent initializer function and global variables instead.

For example:

int foo;
int *m = NULL;

static void InitVars() {
    foo = 0;
    if (m != NULL) {
        free(m);
    }
    m = malloc(sizeof(int)*5);
    memset(m, 0, sizeof(int)*5);
}

If your initializer is really idempotent, you can call it again to reset the variables.

If you need this to be called automagically, use __attribute__((constructor)) (for GCC) like so:

static void InitVars __attribute__((constructor)) ();

However, you should note that if you need to do this, you should reconsider using in-function static variables and instead use passed-in fresh ones that are returned/written and passed to subsequent related calls.

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Hi Thanks for the answer. I decided to follow the advise and not use *v as a static variable- instead just use whichColumn as a statitc variable. v is now part of the struct as recommended by Jesse below. passing (column = -1) resets the statitic variable and reinitalizes the work vector. Then it is updated appropriately for each time (column != whichColumn). Your other suggestion sounds useful and I will learn about it. Thanks again. sm –  Sue Aug 17 '10 at 9:36
    
hmm - this looks a little risky - not sure its the most robust solution with those global variables hanging around –  bph Jan 19 '12 at 13:02

One approach I've seen used when a C module was imported to C++ was to surround the whole module with a class wrapper, and replace all static variables inside functions with uniquely-named "global" varaibles outside the functions. I don't know any good way to achieve a similar effect for projects involving multiple source files, though I'd like to know if one exists. I have some embedded system code in C, which I simulate by adding some C++ wrappers in VS2005. For example, I have I/O registers defined so that something like TX1CON = 0x5C; would translate into something like IOMAP(0x251).P = 0x5C; IOMAP is a property which would send "write 0x5C to address 0x251" to a hardware-simulation program. This approach works well, but I can't do a clean reset. Any ideas?

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problem with this is you end up with a whole bunch more functions == code bloat. plus you're just pushing the responsibility up the ladder which ultimately lead you to the 'god' function anti-pattern. I don't think there's an obvious 'clean' solution to this for a non OOP language –  bph Jan 19 '12 at 13:05
    
@Hiett: In the particular scenario I described with the C++ wrappers in VS2005, the code bloat only occurred in a simulation context. Since the real system had 128K ROM and 4K RAM, and the simulation environment had gigs of RAM, and since the real system probably ran "raw code" less than 1% as fast as the simulation environment, my concern was writing code in such a way as to be efficient on the real system, without regard for whether efficiency in the simulation context. Other situations would have other requirements. –  supercat Jan 19 '12 at 16:57

An approach which can sometimes be helpful if one needs a "reset" method which can hit an unknown number of functions or modules is to have a global counter for how many times that reset method has been called, and then have each function or module include code like:

extern unsigned long global_reset_count;

void do_something(int whatever)
{
  static ... this, that, the other, etc. ...;
  static unsigned long my_reset_count;

  if (my_reset_count != global_reset_count)
  {
    my_reset_count = global_reset_count;
    ... initialize this, that, the other, etc ...
  }  
}

In some multi-threading contexts, if the initialization of the static variables may depend upon some global variables, one may wish to replace the "if" with a "while"; in such a case; memory barriers may also be needed in such a case, though the exact requirements would vary depending upon the operating environment.

Also, an alternative pattern that may be useful within embedded systems would be to have a modules_initialized global variable which gets set to 0 by the global reset method, and then have each module start with something like:

  if (!atomic_bit_test_and_set32(&modules_initialized, FOOBOZZ_MODULE_ID))
  {
    ... Initialize module FOOBOZZ ...
  }

This would require that there be no more than 32 module ID's, and would require that they be uniquely allocated somehow, but some systems can handle that pretty nicely. For example, a linker may allow one to define a "data section" from address 0-31 of an address space independent from any other; if each module declares a single-byte variable within that address space, the linker could generate the appropriate addresses for those variables.

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