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Ok, I'm trying to do this, but it isn't working becuase I'm not dereferencing the pointer... is there a way to do it without making a switch statement for the type?

typedef struct
    char *ascii_fmtstr;
    int len;
    int (*deserializer)(void *in, const char *ascii);
    int (*serializer)(const void *in, char *ascii);

const FORMAT formats[]=
    {"%d\n",    2/2}        //Int
    ,{"%s\n",   STRSIZE/2}  //String
    ,{"%.4f\n", 4/2}        //Float
    ,{"%lld",   4/2}        //Long-Long
    ,{"%s\n",   STRSIZE/2}  //Time

typedef struct {
    int fmtindex;
    void * vp;

float f = 5.0f;
int i=1;
char foo[]="bar";

JUNK j[] = {
     {2, &f}
     ,{0, &i}
     ,{1, foo}};

void dump(void)
    int i;
        printf(formats[j[i].fmtindex].ascii_fmtstr, j[i].vp);

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5 Answers 5

up vote -1 down vote accepted

It seems like you're using void * as a cheap union. That's a pretty bad idea. I think you'll find unions in conjunction with enums and switches make this look so much neater, in C. You'll find the switch amongst the #ifdef SWITCH ... #else, and the switchless version amongst the #else ... #endif.

#include <stdio.h>

struct object {
    enum type {
    } type;

    union instance {
        int d;
        char *s;
        float f;
        long long lld;
        char *time;
    } instance;

#ifdef SWITCH
void print_object(struct object *o) {
    switch (o->type) {
        case d: printf("%d", o->instance.d); break;
        case s: printf("%s", o->instance.s); break;
        case f: printf("%f", o->instance.f); break;
        case lld: printf("%lld", o->instance.lld); break;
        case time: printf("%s", o->instance.time); break;
void print_d(struct object *o);
void print_s(struct object *o);
void print_f(struct object *o);
void print_lld(struct object *o);
void print_time(struct object *o);

void print_object(struct object *o) {
    void (*print_functions[])(struct object *) = {
         [d] = print_d,
         [s] = print_s,
         [f] = print_f,
         [lld] = print_lld,
         [time] = print_time


void print_d(struct object *o) { printf("%d", o->instance.d); }
void print_s(struct object *o) { printf("%s", o->instance.s); }
void print_f(struct object *o) { printf("%f", o->instance.f); }
void print_lld(struct object *o) { printf("%lld", o->instance.lld); }
void print_time(struct object *o) { printf("%s", o->instance.time); }

int main(void) {
    struct object o = { .type = d,                /* type: int */
                        .instance = { .d = 42 }   /* value: 42 */ };

    return 0;
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It's kind of a cheap union -- I'm trying to unite a modbus register area (everything is stored in a structure, and there's a "mapping structure" that has the void * and the type spec) with something that's human-readable (so I can "print" the modbus register and get something intelligent out). I have a feeling that if I use with switch statement, the C compiler will be able to use cheaper printfs so maybe the extra code will actually be smaller. –  ThorMJ Apr 26 '13 at 16:06
@ThorMJ Do you have any evidence to suggest that this code is too large or too slow? In what form did you obtain it? –  undefined behaviour Apr 26 '13 at 16:16
It's "too large" in source code size ;)... it's actually improved my code size a lot since I was able to discard the printf... –  ThorMJ Apr 28 '13 at 18:02
@ThorMJ The alternative is much larger in source code size, and certainly no more clear. Perhaps, if you wish to develop more clear code, it might be a good idea to focus on making your identifiers more descriptive and consistent. Can you justify using ascii in your identifiers when you compile this code on an IBM mainframe, which uses an EBCDIC character set? –  undefined behaviour Apr 28 '13 at 18:45

Think about it this way : Any pointer simply points to a single memory location.But the type of the pointer determines how many bytes after that to interpret/consider.If it is char* then (depending on system) 1 byte is interpreted,if it is an int* 4 bytes are interpreted, and so on.But a void* had no type.So you can't dereference a void pointer in C due to this simple reason.But you can print out the address it points to using the %p format specifier in printf() and passing that void pointer as argument.

printf("The address pointed by void pointer is %p",void_ptr); //Correct

printf("The address pointed by void pointer is %p",(void*)int_ptr);//Correct

assuming int_ptr is an integer pointer,say,and void_ptr is a void pointer.

printf("Value at address pointed by void pointer is %d",*void_ptr);// Wrong

printf("Value at address pointed by void pointer is %d",*(void*)int_ptr);//Wrong
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This is true, but irrelevant to the OP's question. Since he is already passing type info in the format, printf has all the necessary information to dereference the pointer itself — if such a format existed. (This is in fact exactly how scanf, whose all arguments are pointers, works.) It doesn't, but it's an interface problem, not a fundamental deficiency of his approach. –  user4815162342 Apr 26 '13 at 6:30

You can print the pointer itself with something like %p but, if you want to print what it points to, you need to tell it what it is:

printf ("%d", *((int*)myVoidPtr));

You're not allowed to dereference a void * simply because the compiler doesn't know what it points to.

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It is not clear what your real goal is. Yes, there are ways to print data type dependent. Basically the idea is to create your own print function.

But only supplying the pointer will not be enough. In any case you need to supply pointer and the type of it.

Lets assume we have a function myprint:

myprint("%m %m %m %i", TYPE_INT, &i, TYPE_FLOAT, &f, TYPE_STRING, foo, 10);

would be a possible call. myprint is a varargs function then which needs to reconstruct the format string and arguments and then can call real printf.

If you use heap variables only, the type of the variable can be stored together with the data with some tricks (hint: check how malloc stores the block size). This would make the additional arguments superflous.

There are other solutions to that, but a good suggestion is not possible without knowledge of your real goal and the exact conditions.

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I guess I was hoping I could do an "inverse scanf" to be neat and clean. Nuts. –  ThorMJ Apr 26 '13 at 16:17

I think the printf and its friends (fprintf, etc.) can dereference only char* which will be interpreted as a c-string.

Actually you can write such function yourself, because you will tell your function how to dereference void* with format flags.

Also you can add to the formats as a third value a pointer to required dereference function that will take as argument a void* and will return the value instead of pointer. So you will need to write a function for each of the types you use in your formats and assign each function to each format properly.

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I don't thinks the printf and its friends can dereference from pointer except char* which will be interpreted as a sting I did not understand what you mean by this. Please elaborate –  Suvarna Apr 26 '13 at 7:09
@SuvP Changed my weird sentence to be more understandable. –  JustAnotherCurious Apr 26 '13 at 7:58
Actually i still don't understand, I mean why can printf dereference only char* ? It can dereference int* etc too ? –  Suvarna Apr 26 '13 at 7:59
@SuvP You can't pass the pointer to int as an argument of printf and print the value of that int. You need to pass the value of that int to printf. If you pass a pointer you can print the address where pointer points. But you can pass a pointer to char and print the value of that char and the next char and the next ... until '\0' will be found. –  JustAnotherCurious Apr 26 '13 at 9:27
Ok i get it. If we use char* of a C-string printf can print until \0 iff it uses %s. Incase of int* etc you need to dereference explicitly to get the value –  Suvarna Apr 26 '13 at 10:13

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