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What C-macros is in your opinion is the most useful? I have found the following one, which I use to do vector arithmetics in C:

#define v3_op_v3(x, op, y, z) {z[0]=x[0] op y[0]; \
                               z[1]=x[1] op y[1]; \
                               z[2]=x[2] op y[2];}

It works like that:

v3_op_v3(vectorA, +, vectorB, vectorC);
v3_op_v3(vectorE, *, vectorF, vectorJ);
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closed as not constructive by Will Sep 17 '12 at 12:29

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And you're not implementing any of the standard forms of vector multiplication here (not dot product, cross product, nor tensor product). – David Thornley Nov 20 '09 at 18:07
Component-wise multiplication has it's uses, but the dimensional limit imposed by the macro makes it not so useful. – outis Nov 20 '09 at 18:17
@outis: This is intended to be used in areas where the dimensional limit is strictly imposed by the very nature of the application area. Like in 3D graphics, for example. – AnT Nov 20 '09 at 18:30
But suppose it the number of dimensions in the universe changes, the code will break - this is the sort of shortsightedness that led to the Y2K problem. – Martin Beckett Nov 20 '09 at 18:41
Yeah... It like that famous quote from Xerox manual. One of the benefits of declaring PI as a named constant is that it helps you to adjust the code in case the value of Pi changes. – AnT Nov 20 '09 at 19:09

18 Answers 18

up vote 10 down vote accepted

for-each loop in C99:

#define foreach(item, array) \
    for(int keep=1, \
            size=sizeof (array)/sizeof *(array); \
        keep && count != size; \
        keep = !keep, count++) \
      for(item = (array)+count; keep; keep = !keep)

int main() {
  int a[] = { 1, 2, 3 };
  int sum = 0;
  foreach(int const* c, a)
    sum += *c;
  printf("sum = %d\n", sum);

  // multi-dim array
  int a1[][2] = { { 1, 2 }, { 3, 4 } };
  foreach(int (*c1)[2], a1)
    foreach(int *c2, *c1) 
      printf("c2 = %d\n", *c2);
share|improve this answer
This is so easy to misuse when your array suddently becomes heap-allocated... – Alexandre C. Jul 16 '10 at 14:08
@Alexandre C. just as easy to misuse as the manual sizeof-with-forloop way. I suspect one better double checks all actions in C :) – ᐅ Johannes Schaub - litb ᐊ Jul 16 '10 at 15:06
Yes, my comment was directed to the idiom, not to the macro. – Alexandre C. Jul 16 '10 at 15:09
What is the purpose of the keep variable, and why does foreach expand to a nested for loop? – Todd Lehman Jul 22 at 21:25
@ToddLehman the purpose is to make break work (and my code was broken. I thought I copied it from a different answer of me, but apparently I wasn't quite enough awake :p. I fixed it, please double-check) – ᐅ Johannes Schaub - litb ᐊ Jul 26 at 12:38
#define IMPLIES(x, y) (!(x) || (y))

#define COMPARE(x, y) (((x) > (y)) - ((x) < (y)))
#define SIGN(x) COMPARE(x, 0)

#define ARRAY_SIZE(a) (sizeof(a) / sizeof(*a))

#define SWAP(x, y, T) do { T tmp = (x); (x) = (y); (y) = tmp; } while(0)
#define SORT2(a, b, T) do { if ((a) > (b)) SWAP((a), (b), T); } while (0)

#define SET(d, n, v) do{ size_t i_, n_; for (n_ = (n), i_ = 0; n_ > 0; --n_, ++i_) (d)[i_] = (v); } while(0)
#define ZERO(d, n) SET(d, n, 0)

And, of course, various MIN, MAX, ABS etc.

Note, BTW, that none of the above can be implemented by a function in C.

P.S. I would probably single out the above IMPLIES macro as one of the most useful ones. Its main purpose is to facilitate writing of more elegant and readable assertions, as in

void foo(int array[], int n) {
  assert(IMPLIES(n > 0, array != NULL));
share|improve this answer
Your macro-fu is impressive (you parenthesize correctly and know the do...while(0) technique), but there's still multiple evaluation problems that you really can't fix. – David Thornley Nov 20 '09 at 18:18
@David Thornley: "Multiple evaluation" with macros is what also gives us "lazy evaluation". It is as much of a problem as it is a feature. One just has to learn to use it properly. To say that danger of "multiple evaluation" somehow means that one shall not use macros, is exactly the same as to say that one shall not use division operator because there's a danger of dividing something by zero. – AnT Nov 20 '09 at 18:21
@Tomas: there's no need, but your way means that callers who want to do SWAPINT(*xp, *yp) now need to check xp != yp first. These days I don't see much point in adding an awkward edge case in order to (maybe) save a register and/or 4 bytes of stack. – Steve Jessop Nov 20 '09 at 19:17
Nice, liking "IMPLIES" the most :) – ᐅ Johannes Schaub - litb ᐊ Nov 20 '09 at 20:16
@JPMC: SET simply assigns the given value v to all n elements of array d. ZERO uses SET to assign value 0 to all n elements of array d. – AnT Jan 29 at 6:28

The key point with C macros is to use them properly. In my mind there are three categories (not considering using them just to give descriptive names to constants)

  1. As a shorthand for piece of codes one doesn't want to repeat
  2. Provide a general use function
  3. Modify the structure of the C language (apparently)

In the first case, your macro will live just within your program (usually just a file) so you can use macros like the one you have posted that is not protected against double evaluation of parameters and uses {...}; (potentially dangerous!).

In the second case (and even more in the third) you need to be extremely careful that your macros behave correctly as if they were real C constructs.

The macro you posted from GCC (min and max) is an example of this, they use the global variables _a and _b to avoid the risk of double evaluation (like in max(x++,y++)) (well, they use GCC extensions but the concept is the same).

I like using macros where it helps to make things more clear but they are a sharp tool! Probably that's what gave them such a bad reputation, I think they are a very useful tool and C would have been much poorer if they were not present.

I see others have provided examples of point 2 (macros as functions), let me give an example of creating a new C construct: the Finite state machine. (I've already posted this on SO but I can't seem to be able to find it)

 #define FSM            for(;;)
 #define STATE(x)       x##_s 
 #define NEXTSTATE(x)   goto x##_s

that you use this way:

 FSM {
      ... do stuff ...

      ... do stuff ...
      if (k<0) NEXTSTATE(s2); 
      /* fallthrough as the switch() cases */

      ... final stuff ...
      break;  /* Exit from the FSM */

You can add variation on this theme to get the flavour of FSM you need.

Someone may not like this example but I find it perfect to demonstrate how simple macros can make your code more legible and expressive.

share|improve this answer
looks more like VHDL or so :) – psihodelia Nov 20 '09 at 22:32
you are an evil evil person lol – Earlz Feb 10 '10 at 23:51

If you need to define data multiple times in different contexts, macros can help you avoid have to relist the same thing multiple times.

For example, lets say you want to define an enum of colors and an enum-to-string function, rather then list all the colors twice, you could create a file of the colors (colors.def):


Now you can in your c file you can define your enum and your string conversion function:

enum {
#define c(color) color,
# include "colors.def"
#undef c

const char *
color_to_string(enum color col)
    static const char *colors[] = {
#define c(color) #color,
# include "colors.def"
#undef c
    return (colors[col]);
share|improve this answer
These are called X-macros. – Ryan Fox May 15 '11 at 1:56
#if defined NDEBUG
    #define TRACE( format, ... )
    #define TRACE( format, ... )   printf( "%s::%s(%d)" format, __FILE__, __FUNCTION__,  __LINE__, __VA_ARGS__ )

Note that the lack of a comma between "%s::%s(%d)" and format is deliberate. It prints a formatted string with source location prepended. I work in real-time embedded systems so often I also include a timestamp in the output as well.

share|improve this answer
Shouldn't the NDEBUG one be #define TRACE (format, ...) ((void)0) to avoid traps like if(cond) TRACE(...) ? – Gregory Jul 17 '14 at 15:06
@Gregory : What is the "trap"? If you failed to place a semi-colon after the macro call, it is probably wrong in any case - if(x) TRACE("y = %d", y ); would resolve to if(x); which will have no effect. – Clifford Jul 17 '14 at 15:38
My bad... I was pretty sure at one point I used a compiler for which ; wasn't a valid statement but it's not a problem for GCC. assert.h still seems to use #define assert(ignore)((void) 0) though. – Gregory Jul 18 '14 at 15:44

Foreach loop for GCC, specifically C99 with GNU Extensions. Works with strings and arrays. Dynamically allocated arrays can be used by casting them to a pointer to an array, and then dereferencing them.

#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <stdbool.h>

  __extension__ \
  ({ \
    bool ret = 0; \
    if (__builtin_types_compatible_p (const char*, ARRAY_TYPE)) \
      ret = INDEX < strlen ((const char*)ARRAY); \
    else \
      ret = INDEX < SIZE; \
    ret; \

  __extension__ \
  ({ \
    TYPE *tmp_array_ = ARRAY; \
    &tmp_array_[INDEX]; \

for (void *array_ = (void*)(ARRAY); array_; array_ = 0) \
for (size_t i_ = 0; i_ && array_ && FOREACH_COMP (i_, array_, \
                                    __typeof__ (ARRAY), \
                                    sizeof (ARRAY) / sizeof ((ARRAY)[0])); \
                                    i_++) \
for (bool b_ = 1; b_; (b_) ? array_ = 0 : 0, b_ = 0) \
for (VAR = FOREACH_ELEM (i_, array_, __typeof__ ((ARRAY)[0])); b_; b_ = 0)

/* example's */
main (int argc, char **argv)
  int array[10];
  /* initialize the array */
  int i = 0;
  FOREACH (int *x, array)
      *x = i;

  char *str = "hello, world!";
  FOREACH (char *c, str)
    printf ("%c\n", *c);

  /* Use a cast for dynamically allocated arrays */
  int *dynamic = malloc (sizeof (int) * 10);
  for (int i = 0; i < 10; i++)
    dynamic[i] = i;

  FOREACH (int *i, *(int(*)[10])(dynamic))
    printf ("%d\n", *i);

  return EXIT_SUCCESS;

This code has been tested to work with GCC, ICC and Clang on GNU/Linux.

Lambda expressions (GCC only)

#define lambda(return_type, ...) \
  __extension__ \
  ({ \
    return_type __fn__ __VA_ARGS__ \
    __fn__; \

main (int argc, char **argv)
  int (*max) (int, int) = 
    lambda (int, (int x, int y) { return x > y ? x : y; });
  return max (1, 2);
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Someone else mentioned container_of(), but didn't provide an explanation for this really handy macro. Let's say you have a struct that looks like this:

struct thing {
    int a;
    int b;

Now if we have a pointer to b, we can use container_of() to get a pointer to thing in a type safe fashion:

int *bp = ...;
struct thing *t = container_of(bp, struct thing, b);

This is useful in creating abstract data structures. For example, rather than taking the approach queue.h takes for creating things like SLIST (tons of crazy macros for every operation), you can now write an slist implementation that looks something like this:

struct slist_el {
    struct slist_el *next;

struct slist_head {
    struct slist_el *first;

slist_insert_head(struct slist_head *head, struct slist_el *el)
    el->next = head->first;
    head->first = el;

struct slist_el
slist_pop_head(struct slist_head *head)
    struct slist_el *el;

    if (head->first == NULL)
        return NULL;

    el = head->first;
    head->first = el->next;
    return (el);   

Which is not crazy macro code. It will give good compiler line-numbers on errors and works nice with the debugger. It's also fairly typesafe, except for cases where structs use multiple types (eg if we allowed struct color in the below example to be on more linked lists than just the colors one).

Users can now use your library like this:

struct colors {
    int r;
    int g;
    int b;
    struct slist_el colors;

struct *color = malloc(sizeof(struct person));
color->r = 255;
color->g = 0;
color->b = 0;
slist_insert_head(color_stack, &color->colors);
el = slist_pop_head(color_stack);
color = el == NULL ? NULL : container_of(el, struct color, colors);
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#define COLUMNS(S,E) [ (E) - (S) + 1 ]

    char firstName COLUMNS ( 1, 20);
    char LastName  COLUMNS (21, 40);
    char ssn       COLUMNS (41, 49);

Save yourself some error prone counting

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thanks, very useful actually! (you have forgotten the types in your example) – psihodelia Nov 20 '09 at 22:35

This one is from linux kernel (gcc specific):

#define container_of(ptr, type, member) ({                  \
const typeof( ((type *)0)->member ) *__mptr = (ptr);	\
    (type *)( (char *)__mptr - offsetof(type,member) ); })

Another missing from other answers:

#define LSB(x) ((x) ^ ((x) - 1) & (x))   // least significant bit
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The name for the last macro is pretty confusing. LSB evokes (x) & 1. – avakar Nov 20 '09 at 22:18
The latter should be LSSB -- least significant set bit – Chris Dodd Jul 24 '10 at 20:01
Or LSD - Least significant digit, though I fear that may have negative conotations... – Joe D Sep 6 '10 at 19:05

Just the standard ones:

#define LENGTH(array) (sizeof(array) / sizeof (array[0]))
#define QUOTE(name) #name
#define STR(name) QUOTE(name)

but there's nothing too spiffy there.

share|improve this answer
Aside: someone posted a LENGTH macro from Google that would cause a compile time error if passed a pointer, but I haven't been able to find it again. Does anyone know the macro and have a link to the answer (or another page) that shows it? – outis Nov 20 '09 at 18:10
This one works for one-dimensional arrays, but you need to pass it the element type: #define REQUIRE_ARRAY(T, X) (void)(sizeof (((char(*)(T(*)[]))0)(&(X)))) – ᐅ Johannes Schaub - litb ᐊ Nov 20 '09 at 20:59
The following works in C99 also for dimensions greater than 1. You need to call REQUIRE_ARRAY2 for an array with 2 dimensions, for example: #define REQUIRE_ARRAY2(T, X) (void)(sizeof (((char(*)(T(*)[*][*]))0)(&(X)))) – ᐅ Johannes Schaub - litb ᐊ Nov 20 '09 at 21:19
@outis - Quite late to the party, but I believe #define IS_ARRAY(a) ((void *)&a == (void *)a) works as a runtime test for whether something is an array or a pointer (unless the pointer is pointing to itself, which may happen as part of a circularly linked structure, but is somewhat uncommon). – Chris Lutz Jul 8 '11 at 12:09
The party never ends. The Google LENGTH macro may have been the one posted by Michael Burr in answer to "Common array length macro for C?". Note that it's not a test whether something is an array but a macro that results in the length of an array or an error for other types. – outis Aug 25 '11 at 18:42
#define kroundup32(x) (--(x), (x)|=(x)>>1, (x)|=(x)>>2, (x)|=(x)>>4, (x)|=(x)>>8, (x)|=(x)>>16, ++(x))

Find the closest 32bit unsigned integer that is larger than x. I use this to double the size of arrays (i.e. the high-water mark).

share|improve this answer
Wouldn't it be faster and simpler to use __builtin_clz and a single shift? – Todd Lehman Jul 22 at 21:49

I also like this one:

#define COMPARE_FLOATS(a,b,epsilon) (fabs(a - b) <= epsilon * fabs(a))

And how you macros-haters do fair floating-point comparisons?

share|improve this answer
"how you macros-haters do fair floating-point comparisons" static inline function. – Steve Jessop Nov 20 '09 at 18:11
There is not such thing as "macro hater". Every time you see a "macro heater", it is in reality a beginner that is trying to present himself as more mature programmer than he really is by parroting what he thinks sounds as "mature" maxima. – AnT Nov 20 '09 at 18:26
@AndreyT: Given that I'm a macro hater, would you care to estimate how many years I've worked professionally in C and C++, and how many courses I've taught at the University level on programming in C? – David Thornley Nov 20 '09 at 19:21
I hate macros too. I also hate lawnmowers - I generally acknowledge the need for shorter grass, I just don't enjoy the process of using the one to achieve the other. I've used macros in another language which were much richer (for instance you could loop without resorting to a recursive include) and yet which were also easier to use correctly than C macros. – Steve Jessop Nov 20 '09 at 19:45
@David Thornley: Is it relevant? A grandma that was driving from her house to her favorite grocery store for 40 years technically has 40 years of driving experience. Does that make her a good driver? Good programmers never hate anything, since absolutely everything has its time and place. – AnT Nov 22 '09 at 6:59

Pack bytes,words,dwords into words,dwords and qwords:

#define ULONGLONG unsigned __int64
#define MAKEWORD(h,l) ((unsigned short) ((h) << 8)) | (l)
#define MAKEDWORD(h,l) ((DWORD) ((h) << 16)) | (l)
#define MAKEQWORD(h,l) ((ULONGLONG)((h) << 32)) | (l)

Parenthesizing arguments it's always a good practice to avoid side-effects on expansion.

share|improve this answer
You should typedef ULONGLONG: typedef unsigned __int64 ULONGLONG; – strager Jul 24 '10 at 19:08
Isn't MAKEQWORD wrong? Should cast h to ULONGLONG before shifting, not after. – Dipstick Jul 24 '10 at 19:37

also multi-type Minimum and Maximum like that

//NOTE: GCC extension !
#define max(a,b) ({typeof (a) _a=(a); typeof (b) _b=(b); _a > _b ? _a:_b; })
#define min(a,b) ({typeof (a) _a=(a); typeof (b) _b=(b); _a < _b ? _a:_b; })
share|improve this answer
It's so short, it's scary. Also, this is a textbook example of why not to use macros. (because the arguments are (conditionally) evaluated multiple times) – justin Nov 20 '09 at 17:45
I think, there was gcc extension for min/max. Something like a >? b – Xeor Nov 20 '09 at 17:47
@Justin: Huh? The above code uses GCC extensions specifically to avoid multiple evaluations. There's no multiple evaluatuion in the above. – AnT Nov 20 '09 at 18:16
@Xeor: Those were g++ extensions and have been deprecated since gcc 4.0.… – jamessan Nov 20 '09 at 19:27
@Hernán, and what is with four parameters? I'd go for max(max(a, b), c) instead – quinmars Dec 11 '09 at 0:32

Checking whether a floating point x is Not A Number:

#define ISNAN(x) ((x) != (x))
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again, why not implement this as an (inline) function? – nikie Nov 20 '09 at 18:10
@nikie because the C99 inline specification for functions is not supported by many compilers. – Remo.D Nov 20 '09 at 18:18
@Remo: it's very widely supported, it just isn't always called inline. – Steve Jessop Nov 20 '09 at 19:25
@nikie: if you're using C99 features (inline), just use the C99 isnan( ) macro defined in <math.h>. – Stephen Canon Jul 24 '10 at 19:27

One (of the very few) that I use regularly is a macro to declare an argument or variable as unused. The most compatible solution to note this (IMHO) varies by compiler.

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can you show us a typical example? – EvilTeach Jul 25 '10 at 0:31

This one is awesome:

#define NEW(type, n) ( (type *) malloc(1 + (n) * sizeof(type)) )

And I use it like:

object = NEW(object_type, 1);
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What's with the 1+ allocating an extra byte for every allocation? – John Ledbetter Nov 20 '09 at 18:00
And why the cast? Never use that cast on the result of malloc() or related function. It takes time to type, and the only time it does anything is if you forgot to #include <stdlib.h>. If I do that, I'd rather have the diagnostic than have stuff continue to probably work. – David Thornley Nov 20 '09 at 18:11
The macro's named NEW—seems pretty clear to me it might allocate memory. Also, the cast is needed for C++, which will not implicitly convert a void * to another type. – LnxPrgr3 Nov 20 '09 at 18:23
@LnxPrgr3: If you're writing in C++: DON'T DO THAT! Use new instead, and never use macros like this. – David Thornley Nov 20 '09 at 19:19
This failing to work in C++ is arguably a feature. It tells you that you've mistakenly run the wrong compiler. If you really want to compile your C with a C++ compiler, you could always define different versions of the macro according to whether __cplusplus is set. Using this macro at all in genuine C++ is questionable, and calling it NEW in C++ when it has nothing to do with new probably isn't a good plan. – Steve Jessop Nov 20 '09 at 19:29

TRUE and FALSE seem to be popular.

share|improve this answer
And misused. It's too bad that C doesn't have a real boolean type, like C++ or Java. – David Thornley Nov 20 '09 at 19:22
C99 has a bool type, stdbool.h – srparish Jul 24 '10 at 22:37
I see if (var == TRUE) way too often and refuse to use these. – Kevin Cox Jun 10 '14 at 14:59

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