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 →

Is there a way to generate a macro which yields the max size of a list of data types?


typedef struct {
    uint8_t x;
} A;

typedef struct {
    uint16_t x;
} B;

typedef struct {
    uint8_t x[10];
} C;

#define sizeof_max(A,B,C)   //compiles to '10'

Use Case

Different value-mappings for a common data-segment.

typedef union {
    uint8_t array[sizeof_max(A,B,C)];
    A iso_hugenum_a;
    B ext_a0;
    C ext_a1;  //and someday down the road 'D' may also get added

This is for an embedded application where the device implements a base protocol ISO_HUGENUM_A. The device must also support extensions to this protocol EXT_A0, EXT_A1, EXT_B0. Heck, in this case there is a real chance of EXT_C0 showing up down the road (yuck)!


The primary goal here is for a top-level system to know the data-segment's size in an extensible and safe way. It is tempting to just say 'cast as array' when you need as array. But

  • At the system-level (who doesn't give an eff about the protocol) there are read, write and checks (e.g. crc) to this data segment

  • 2yrs down the road 'EXT_C0' may come along. I want to leave the poor soul who inherits my code with something that won't break when EXT_C0 grows the data segment

I am hoping there is a solution, but have not found one yet. Any ideas? All the sizes would be generated by the pre-processor, so it seems like an ideal candidate for a macro.


share|improve this question
Why can't you just use the sizeof some union -like your DATA_SEG without array ? – Basile Starynkevitch Jan 26 '14 at 4:30
Isn't this just the normal use-case for a union? – Carl Norum Jan 26 '14 at 4:30
removed C++ tag; thx. – J-Dizzle Jan 26 '14 at 4:32
Relying on the array could also cause problems - smaller structs will cause your array to have data you might read accidentally, so whatever layer reads it would still need to be smart anyway. You should just stick with a union.. – NG. Jan 26 '14 at 4:32
Yes this appears to be a common union use case. I may end up in the end removing the array member. however in the context of this protocol and how the system executes iso_hugenum_a, array access is a primary feature I want here. – J-Dizzle Jan 26 '14 at 4:37
up vote 1 down vote accepted

The following macro definition does precisely what you have asked:

#define sizeof_max(s1,s2,s3) sizeof( union{s1 a; s2 b; s3 c; })

For your example structures the following:

size_t s = sizeof_max( A,B,C ) ;

results in s = 10.

Of course you could omit the array member and simply cast a DATA_SEG object address to a uint8_t* when you want to access as a byte array:

uint8_t* array = (uint8_t*)&x ; 

That would allow DATA_SEG to add more structures if necessary without having to change the macro - a lot safer and more maintainable.


Another possibility is to separate the specialised interpretations from the byte overlay thus:

typedef union 
    A iso_hugenum_a;
    B ext_a0;
    C ext_a1;  
    D added_someday ;

typedef union 
    uint8_t array[sizeof(DATA_SEG_U)];
    DATA_SEG_U data_seg ;
share|improve this answer
"//and someday down the road 'D' may also get added": The OP asked for generalizations, and not only for the case of 3 members. – pablo1977 Jan 26 '14 at 11:06
@pablo1977: I'll have to think about that. – Clifford Jan 26 '14 at 19:12
I was just thinking about this; dang you clifford! VERY elegant solution. thank you. – J-Dizzle Jan 26 '14 at 19:58
@Clifford: However justinmreina is happy, so forget my comment... – pablo1977 Jan 26 '14 at 20:29
@pablo1977: Fixed – Clifford Jan 27 '14 at 11:08

Combining variadic macros with multi-level pre-processing can work -

This achieves the desired goal 'for up to 5 inputs'.

#define VA_NUM_ARGS_IMPL(_1,_2,_3,_4,_5,N,...) N

#define VA_NUM_ARGS(...)                 VA_NUM_ARGS_IMPL(__VA_ARGS__, 5,4,3,2,1)
#define macro_dispatcher__(func,nargs)   func ## nargs
#define macro_dispatcher_(func, nargs)   macro_dispatcher__(func, nargs)
#define macro_dispatcher(func, ...)      macro_dispatcher_(func, VA_NUM_ARGS(__VA_ARGS__))

#define sizeof_max(...) macro_dispatcher(sizeof_max, __VA_ARGS__)(__VA_ARGS__)

#define sizeof_max1(a)         (sizeof(a))
#define sizeof_max2(a,b)       (sizeof(a)>sizeof(b)?sizeof(a):sizeof(b))
#define sizeof_max3(a,b,c)     sizeof_max2(sizeof_max2(a,b), c)
#define sizeof_max4(a,b,c,d)   sizeof_max2(sizeof_max3(a,b,c),d)
#define sizeof_max5(a,b,c,d,e) sizeof_max2(sizeof_max4(a,b,c,d),e)

This will work for GCC/C99. It is 'a' solution to the problem, and I post here because I learned much from it, and want to share it. That being said, read the disclaimer at end:).


The use of macro_dispatcher() was provided by 'rmn' from the efesx forum here:

Adding fcn# to the function name also described here:

Of course, here are some GCC variadic macro pages:


typedef union {
    uint8_t array[sizeof_max(A,B,C)];  //array is of size 10.
    A iso_hugenum_a;
    B ext_a0;
    C ext_a1; 


you can try this code in 'main.c' and compile with 'gcc -E main.c' to observe the macro-ness:

int main (void) {
    uint8_t rslt;

    //preprocs to 'rslt=C;'
    rslt = VA_NUM_ARGS_IMPL(A,B,C,A,B,C,A);

    //preprocs to 'rslt=3'
    rslt = VA_NUM_ARGS(A,B,C);

    //preprocs to 'rslt=maxN'
    rslt = macro_dispatcher__(max, N);

    //preprocs to 'rslt=macro_dispatcher_(max, N);'
    rslt = macro_dispacther_(max, N);

    //preprocs to 'rslt=max3;'
    rslt = macro_dispatcher(max, X, Y, Z);

    //preprocs to 'sizeof_max1(A)/max2(A,B)/max3(A,B,C)'
    rslt = sizeof_max(A);
    rslt = sizeof_max(A,B);
    rslt = sizeof_max(A,B,C);

    //macro_dispatcher(sizeof_max, __VA_ARGS__)(__VA_ARGS__)
    //macro_dispatcher_(sizeof_max, 3)(__VA_ARGS__)
    rslt = sizeof_max(A,B,C);

    return 0;

(Disclaimer) Simpler & Safer always wins. As such I will most likely go with something closest to Clifford's answer. No need for me to play cute tricks that will 'byte' someone else down the road.

share|improve this answer

Your Answer


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

Not the answer you're looking for? Browse other questions tagged or ask your own question.