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I've written a program to probe the limits of a system's C time.h functions and dump them out in JSON. Then other things which depend on those functions can know their limits.

# system time.h limits, as JSON
{
    "gmtime": { "max": 2147483647, "min": -2147483648 },
    "localtime": { "max": 2147483647, "min": -2147483648 },
    "mktime": {
        "max": { "tm_sec": 7, "tm_min": 14, "tm_hour": 19, "tm_mday": 18, "tm_mon": 0, "tm_year": 138, "tm_wday": 1, "tm_yday": 17, "tm_isdst": 0 },
        "min": { "tm_sec": 52, "tm_min": 45, "tm_hour": 12, "tm_mday": 13, "tm_mon": 11, "tm_year": 1, "tm_wday": 5, "tm_yday": 346, "tm_isdst": 0 }
    }
}

gmtime() and localtime() are simple enough, they just take numbers, but mktime() takes a tm struct. I wrote a custom function to turn a tm struct into a JSON hash.

/* Dump a tm struct as a json fragment */
char * tm_as_json(const struct tm* date) {
    char *date_json = malloc(sizeof(char) * 512);
#ifdef HAS_TM_TM_ZONE
    char zone_json[32];
#endif
#ifdef HAS_TM_TM_GMTOFF
    char gmtoff_json[32];
#endif

    sprintf(date_json,
            "\"tm_sec\": %d, \"tm_min\": %d, \"tm_hour\": %d, \"tm_mday\": %d, \"tm_mon\": %d, \"tm_year\": %d, \"tm_wday\": %d, \"tm_yday\": %d, \"tm_isdst\": %d",
            date->tm_sec, date->tm_min, date->tm_hour, date->tm_mday,
            date->tm_mon, date->tm_year, date->tm_wday, date->tm_yday, date->tm_isdst
    );

#ifdef HAS_TM_TM_ZONE
    sprintf(&zone_json, ", \"tm_zone\": %s", date->tm_zone);
    strcat(date_json, zone_json);
#endif
#ifdef HAS_TM_TM_GMTOFF
    sprintf(&gmtoff_json", \"tm_gmtoff\": %ld", date->tm_gmtoff);
    strcat(date_json, gmtoff_json);
#endif

    return date_json;
}

Is there a way to do this generically, for any given struct?

Note: C, not C++.

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4 Answers

Not in C—at least in general. But if the C module is compiled with debug symbols, and the object module is available, you could parse that and discover everything about the structure. I bet there's a library for your system to assist with that.

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+1 for beating me to it. –  Robert Groves Feb 12 '10 at 6:51
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This won't quite give you what you're asking for, but it might help a little:

#define NAME_AND_INT(buf, obj, param) \
        sprintf((buf), "\"%s\": %d, ", #param, (obj)->(param))

You could then iterate, e.g. something like (note: not tested; consider this pseudo-code):

char * tm_as_json(const struct tm* date) {
    /* ... */
    char buf[BUFSIZ]; /* or, use your date_json */

    pos = buf; /* I note you use the equivalent of &buf -- that works too */
               /* (not sure which is "better", but I've always left the & off
                * things like that -- buf is essentially a pointer, it's just
                * been allocated in a different way.  At least that's how I
                * think of it. */
    pos += NAME_AND_INT(pos, date, tm_sec);
    pos += NAME_AND_INT(pos, date, tm_min);
    /* ... more like this ... */

    /* strip trailing ", " (comma-space): */
    pos-=2;
    *pos = '\0';

    /* ... */
}

You could similarly define NAME_AND_STRING, NAME_AND_LONG, etc. (for tm_zone and tm_gmtoff) as needed.

Again, it's not a generic solution, but it at least gets you a little closer, maybe.

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Thanks, that's a bit more pleasant to work with. –  Schwern Feb 24 '11 at 11:33
    
Good, I'm glad it's helpful. Also, I just noticed that I ought to have had parenthesis around "buf" in the expansion of the macro. I've edited my answer to add them. –  lindes Feb 24 '11 at 19:54
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Tom Christiansen once wrote pstruct/h2ph which is in perl CORE to parse .stabs info from the used compiler, and create readable info for all data structures.

C structs into JSON is trivial based on h2ph. http://perl5.git.perl.org/perl.git/blob/HEAD:/utils/h2ph.PL

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Thanks, but is that parsing the C struct with Perl? –  Schwern Apr 17 '11 at 8:06
    
It's almost impossible to parse a C struct with perl only, only if you rewrite parts of the compiler in perl. And it's not needed, since your compiler might be capable to create symbolic information for the structs for this very compiler: stabs, dwarf, xml. For xml there's GCC::TranslationUnit, and there's also Convert::Binary::C which uses ucpp. –  rurban Jun 5 '11 at 11:22
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This macro does not do exactly what you want (generate JSON dump of C data), but I think it shows some possibility. You can dump content of any C data with a "p(...);" call.

I used gdb as external helper to make this work, but it is possible to implement one with libbfd. In that case, you can fully control your output - like generating JSON compatible output.

#ifndef PP_H
#define PP_H
/*
* Helper function (macro) for people who loves printf-debugging.
* This dumps content of any C data/structure/expression without prior
* knowledge of actual format. Works just like "p" or "pp" in Ruby.
*
* Usage:
* p(anyexpr);
*
* NOTE:
* - Program should be compiled with "-g" and preferrably, with "-O0".
*
* FIXME:
* - Would be better if this doesn't depend on external debugger to run.
* - Needs improvement on a way prevent variable from being optimized away.
*/

#include <stdio.h>
#include <stdlib.h>
#include <unistd.h>
#include <stdarg.h>

// Counts number of actual arguments.
#define COUNT_(_1, _2, _3, _4, _5, _6, _7, _8, N, ...) N
#define COUNT(...) COUNT_(__VA_ARGS__, 8, 7, 6, 5, 4, 3, 2, 1)

// Dispatches macro call by number of actual arguments.
// Following is an example of actual macro expansion performed in case
// of 3 arguments:
//
// p(a, b, c)
// -> FUNC_N(p, COUNT(a, b, c), a, b, c)
// -> FUNC_N(p, 3, a, b, c)
// -> p_3(a, b, c)
//
// This means calling with simple "p(...)" is fine for any number of
// arguments, simulating "true" variadic macro.
#define CONCAT(name, count) name##count
#define FUNC_N(name, count, ...) CONCAT(name, count)(__VA_ARGS__)

// Forbids variable from being optimized out, so debugger can access it.
//
// FIXME:
// - Current implementation does not work with certain type of symbols
#define ENSURE(...) FUNC_N(ENSURE_, COUNT(__VA_ARGS__), __VA_ARGS__)
#define ENSURE_1(a) asm(""::"m"(a))
#define ENSURE_2(a, ...) do { ENSURE_1(a); ENSURE_1(__VA_ARGS__); } while (0)
#define ENSURE_3(a, ...) do { ENSURE_1(a); ENSURE_2(__VA_ARGS__); } while (0)
#define ENSURE_4(a, ...) do { ENSURE_1(a); ENSURE_3(__VA_ARGS__); } while (0)
#define ENSURE_5(a, ...) do { ENSURE_1(a); ENSURE_4(__VA_ARGS__); } while (0)
#define ENSURE_6(a, ...) do { ENSURE_1(a); ENSURE_5(__VA_ARGS__); } while (0)
#define ENSURE_7(a, ...) do { ENSURE_1(a); ENSURE_6(__VA_ARGS__); } while (0)
#define ENSURE_8(a, ...) do { ENSURE_1(a); ENSURE_7(__VA_ARGS__); } while (0)

// Dumps content of given symbol (uses external GDB for now)
//
// NOTE:
// - Should use libbfd instead of gdb? (but this adds complexity...)
#define PP_D(...) do { \
char *arg[] = { __VA_ARGS__, NULL }; \
char **argp = arg; \
char cmd[1024]; \
FILE *tmp = tmpfile(); \
fprintf(tmp, "attach %d\n", getpid()); \
fprintf(tmp, "frame 2\n"); \
while (*argp) \
fprintf(tmp, "p %s\n", *argp++); \
fprintf(tmp, "detach\n"); \
fflush(tmp); \
sprintf(cmd, "gdb -batch -x /proc/%d/fd/%d", \
getpid(), fileno(tmp)); \
system(cmd); \
fclose(tmp); \
} while (0)

#define PP(...) do { \
FUNC_N(PP_, COUNT(__VA_ARGS__), __VA_ARGS__); \
ENSURE(__VA_ARGS__); \
} while (0)
#define PP_1(a) do { PP_D(#a); } while (0)
#define PP_2(a,b) do { PP_D(#a,#b); } while (0)
#define PP_3(a,b,c) do { PP_D(#a,#b,#c); } while (0)
#define PP_4(a,b,c,d) do { PP_D(#a,#b,#c,#d); } while (0)
#define PP_5(a,b,c,d,e) do { PP_D(#a,#b,#c,#d,#e); } while (0)
#define PP_6(a,b,c,d,e,f) do { PP_D(#a,#b,#c,#d,#e,#f); } while (0)
#define PP_7(a,b,c,d,e,f,g) do { PP_D(#a,#b,#c,#d,#e,#f,#g); } while (0)
#define PP_8(a,b,c,d,e,f,g,h) do { PP_D(#a,#b,#c,#d,#e,#f,#g,#h); } while (0)

// Comment this out if you think this is too aggressive.
#define p PP

#endif

Indentation is lost in above paste, but you can grab the source from: https://github.com/tai/ruby-p-for-c

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Thanks for the answer. Relying on non-standard libraries, and especially not external programs, is not possible in my case. Though I'd be interested in seeing what a libbfd version would look like. –  Schwern Sep 15 '11 at 16:56
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