Almost all languages have a foreach loop or something similar. Does C have one? Can you post some example code?

  • 1
    "foreach" of what?
    – alk
    Mar 6, 2016 at 11:13
  • How hard would it have been to try writing a foreach loop in a C program?
    – MD XF
    Oct 17, 2016 at 0:04

12 Answers 12


C doesn't have a foreach, but macros are frequently used to emulate that:

#define for_each_item(item, list) \
    for(T * item = list->head; item != NULL; item = item->next)

And can be used like

for_each_item(i, processes) {

Iteration over an array is also possible:

#define foreach(item, array) \
    for(int keep = 1, \
            count = 0,\
            size = sizeof (array) / sizeof *(array); \
        keep && count != size; \
        keep = !keep, count++) \
      for(item = (array) + count; keep; keep = !keep)

And can be used like

int values[] = { 1, 2, 3 };
foreach(int *v, values) {
    printf("value: %d\n", *v);

Edit: In case you are also interested in C++ solutions, C++ has a native for-each syntax called "range based for"

  • 1
    If you've got the "typeof" operator (gcc extension; pretty common on many other compilers) you can get rid of that "int *". The inner for loop becomes something like "for(typeof((array)+0) item = ..." Then you can call as "foreach( v, values ) ..."
    – leander
    Aug 6, 2009 at 4:46
  • 3
    @eSKay yes consider if(...) foreach(int *v, values) ... . If they are outside the loop it expands to if(...) int count = 0 ...; for(...) ...; and will break. May 9, 2010 at 11:37
  • 1
    @rem it does not break the outer loop if you use "break" Sep 26, 2016 at 11:05
  • 1
    @rem you can however simplify my code if you change the inner "keep = !keep" into "keep = 0". I liked the "symmetry" so i just used negation and not straight assignment. Sep 26, 2016 at 11:12
  • 1
    @rem yes that is possible. But not portable. Typeof is nonstandard Sep 28, 2016 at 17:53

Here is a full program example of a for-each macro in C99:

#include <stdio.h>

typedef struct list_node list_node;
struct list_node {
    list_node *next;
    void *data;

#define FOR_EACH(item, list) \
    for (list_node *(item) = (list); (item); (item) = (item)->next)

main(int argc, char *argv[])
    list_node list[] = {
        { .next = &list[1], .data = "test 1" },
        { .next = &list[2], .data = "test 2" },
        { .next = NULL,     .data = "test 3" }

    FOR_EACH(item, list)
        puts((char *) item->data);

    return 0;
  • What does the dot do in the list[] definition? Couldn't you simply write next instead of .next?
    – Rizo
    Jun 28, 2010 at 10:25
  • 9
    @Rizo No, the dot is a part of the syntax for C99 designated initializers. See en.wikipedia.org/wiki/C_syntax#Initialization Jun 28, 2010 at 15:27
  • @Rizo: Note also that that's a really hacky way of building a linked list. It'll do for this demo but don't do it that way in practice! Jul 21, 2010 at 15:18
  • @Donal What makes it "hacky"? Jul 22, 2010 at 13:17
  • 2
    @Judge: Well, for one thing it has “surprising” lifetime (if you're working with code which removes elements, chances are you'll crash in free()) and for another it has a reference to the value inside its definition. It's really an example of something that's just too damn clever; code's complex enough without purposefully adding cleverness to it. Kernighan's aphorism (stackoverflow.com/questions/1103299/…) applies! Jul 22, 2010 at 23:25

As you probably already know, there's no "foreach"-style loop in C.

Although there are already tons of great macros provided here to work around this, maybe you'll find this macro useful:

// "length" is the length of the array.   
#define each(item, array, length) \
(typeof(*(array)) *p = (array), (item) = *p; p < &((array)[length]); p++, (item) = *p)

...which can be used with for (as in for each (...)).

Advantages of this approach:

  • item is declared and incremented within the for statement (just like in Python!).
  • Seems to work on any 1-dimensional array
  • All variables created in macro (p, item), aren't visible outside the scope of the loop (since they're declared in the for loop header).


  • Doesn't work for multi-dimensional arrays
  • Relies on typeof(), which is a GNU extension, not part of standard C
  • Since it declares variables in the for loop header, it only works in C11 or later.

Just to save you some time, here's how you could test it:

typedef struct {
    double x;
    double y;
} Point;

int main(void) {
    double some_nums[] = {4.2, 4.32, -9.9, 7.0};
    for each (element, some_nums, 4)
        printf("element = %lf\n", element);

    int numbers[] = {4, 2, 99, -3, 54};
    // Just demonstrating it can be used like a normal for loop
    for each (number, numbers, 5) { 
        printf("number = %d\n", number);
        if (number % 2 == 0)
                printf("%d is even.\n", number);

    char* dictionary[] = {"Hello", "World"};
    for each (word, dictionary, 2)
        printf("word = '%s'\n", word);

    Point points[] = {{3.4, 4.2}, {9.9, 6.7}, {-9.8, 7.0}};
    for each (point, points, 3)
        printf("point = (%lf, %lf)\n", point.x, point.y);

    /* Neither p, element, number or word are visible outside the scope of
    their respective for loops. Try to see if these printfs work (they shouldn't): */
    //printf("*p = %s", *p);
    //printf("word = %s", word);

    return 0;

Seems to work on gcc and clang by default; haven't tested other compilers.


There is no foreach in C.

You can use a for loop to loop through the data but the length needs to be know or the data needs to be terminated by a know value (eg. null).

char* nullTerm;
nullTerm = "Loop through my characters";

for(;nullTerm != NULL;nullTerm++)
    //nullTerm will now point to the next character.
  • 1
    You should add the initialization of the nullTerm pointer to the beginning of the data set. The OP might be confused about the incomplete for loop.
    – cschol
    Dec 30, 2008 at 17:54
  • Fleshed out the example a little.
    – Adam Peck
    Dec 30, 2008 at 18:13
  • 1
    you are changing your original pointer, I would do something like: char* s;s="...";for(char *it=s;it!=NULL;it++){/*it point to the character*/}
    – hiena
    Aug 6, 2009 at 4:32

While C does not have a for each construct, it has always had an idiomatic representation for one past the end of an array (&arr)[1]. This allows you to write a simple idiomatic for each loop as follows:

int arr[] = {1,2,3,4,5};
for(int *a = arr; a < (&arr)[1]; ++a)
    printf("%d\n", *a);
  • 3
    If not so sure this is well-defined. (&arr)[1] doesn't mean one array item past the end of the array, it means one array past the end of the array. (&arr)[1] is not the last item of array [0], it is the array [1], which decays into a pointer to the first element (of array [1]). I believe it would be much better, safer and idiomatic to do const int* begin = arr; const int* end = arr + sizeof(arr)/sizeof(*arr); and then for(const int* a = begin; a != end; a++).
    – Lundin
    Oct 5, 2016 at 9:22
  • 1
    @Lundin This is well defined. You're right, it's one array past the end of the array, but that array type converts to a pointer in this context (an expression), and that pointer is one past the end of the array.
    – Steve Cox
    Oct 5, 2016 at 14:09

This is a fairly old question, but I though I should post this. It is a foreach loop for GNU C99.

#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);

  return EXIT_SUCCESS;

This code has been tested to work with gcc, icc and clang on GNU/Linux.


Here is what I use when I'm stuck with C. You can't use the same item name twice in the same scope, but that's not really an issue since not all of us get to use nice new compilers :(

#define FOREACH(type, item, array, size) \
    size_t X(keep), X(i); \
    type item; \
    for (X(keep) = 1, X(i) = 0 ; X(i) < (size); X(keep) = !X(keep), X(i)++) \
        for (item = (array)[X(i)]; X(keep); X(keep) = 0)

#define _foreach(item, array) FOREACH(__typeof__(array[0]), item, array, length(array))
#define foreach(item_in_array) _foreach(item_in_array)

#define in ,
#define length(array) (sizeof(array) / sizeof((array)[0]))
#define CAT(a, b) CAT_HELPER(a, b) /* Concatenate two symbols for macros! */
#define CAT_HELPER(a, b) a ## b
#define X(name) CAT(__##name, __LINE__) /* unique variable */


int ints[] = {1, 2, 0, 3, 4};
foreach (i in ints) printf("%i", i);
/* can't use the same name in this scope anymore! */
foreach (x in ints) printf("%i", x);

EDIT: Here is an alternative for FOREACH using the c99 syntax to avoid namespace pollution:

#define FOREACH(type, item, array, size) \
    for (size_t X(keep) = 1, X(i) = 0; X(i) < (size); X(keep) = 1, X(i)++) \
    for (type item = (array)[X(i)]; X(keep); X(keep) = 0)
  • Note: VAR(i) < (size) && (item = array[VAR(i)]) would stop once the array element had a value of 0. So using this with double Array[] may not iterate through all elements. Seems like the loop test should be one or the other: i<n or A[i]. Maybe add sample use cases for clarity. Oct 16, 2015 at 17:32
  • Even with pointers in my previous approach the result seems to be 'undefined behavior'. Oh well. Trust the double for loop approach!
    – Watercycle
    Oct 22, 2015 at 1:54
  • This version pollutes the scope and will fail if used twice in the same scope. Also doesn't work as an un-braced block (e.g. if ( bla ) FOREACH(....) { } else....
    – M.M
    Nov 5, 2015 at 22:15
  • 1
    1, C is the language of scope pollution, some of us are limited to older compilers. 2, Don't Repeat Yourself / be descriptive. 3, yeah, unfortunately you MUST have braces if it is going to be a conditional for loop (people usually do anyway). If you have access to a compiler that supports variable declarations in a for loop, by all means do it.
    – Watercycle
    Nov 5, 2015 at 23:13
  • @Watercycle: I took the liberty to edit your answer with an alternative version of FOREACH that uses the c99 syntax to avoid namespace pollution.
    – chqrlie
    Aug 17, 2019 at 21:14

C has 'for' and 'while' keywords. If a foreach statement in a language like C# looks like this ...

foreach (Element element in collection)

... then the equivalent of this foreach statement in C might be be like:

for (
    Element* element = GetFirstElement(&collection);
    element != 0;
    element = GetNextElement(&collection, element)
    //TODO: do something with this element instance ...
  • 2
    You should mention that your example code is not written in C syntax.
    – cschol
    Dec 30, 2008 at 17:48
  • > You should mention that your example code is not written in C syntax You're right, thank you: I'll edit the post.
    – ChrisW
    Dec 30, 2008 at 17:53
  • @monjardin-> sure you can just define pointer to function in the struct and there is no problem to make the call like this.
    – Ilya
    Dec 31, 2008 at 7:53

Eric's answer doesn't work when you're using "break" or "continue".

This can be fixed by rewriting the first line:

Original line (reformatted):

for (unsigned i = 0, __a = 1; i < B.size(); i++, __a = 1)


for (unsigned i = 0, __a = 1; __a && i < B.size(); i++, __a = 1)

If you compare it to Johannes' loop, you'll see that he's actually doing the same, just a bit more complicated and uglier.


Here's a simple one, single for loop:

#define FOREACH(type, array, size) do { \
        type it = array[0]; \
        for(int i = 0; i < size; i++, it = array[i])
#define ENDFOR  } while(0);

int array[] = { 1, 2, 3, 4, 5 };

FOREACH(int, array, 5)
    printf("element: %d. index: %d\n", it, i);

Gives you access to the index should you want it (i) and the current item we're iterating over (it). Note you might have naming issues when nesting loops, you can make the item and index names be parameters to the macro.

Edit: Here's a modified version of the accepted answer foreach. Lets you specify the start index, the size so that it works on decayed arrays (pointers), no need for int* and changed count != size to i < size just in case the user accidentally modifies 'i' to be bigger than size and get stuck in an infinite loop.

#define FOREACH(item, array, start, size)\
    for(int i = start, keep = 1;\
        keep && i < size;\
        keep = !keep, i++)\
    for (item = array[i]; keep; keep = !keep)

int array[] = { 1, 2, 3, 4, 5 };
FOREACH(int x, array, 2, 5)
    printf("index: %d. element: %d\n", i, x);


index: 2. element: 3
index: 3. element: 4
index: 4. element: 5

If you're planning to work with function pointers

#define lambda(return_type, function_body)\
    ({ return_type __fn__ function_body __fn__; })

#define array_len(arr) (sizeof(arr)/sizeof(arr[0]))

#define foreachnf(type, item, arr, arr_length, func) {\
    void (*action)(type item) = func;\
    for (int i = 0; i<arr_length; i++) action(arr[i]);\

#define foreachf(type, item, arr, func)\
    foreachnf(type, item, arr, array_len(arr), func)

#define foreachn(type, item, arr, arr_length, body)\
    foreachnf(type, item, arr, arr_length, lambda(void, (type item) body))

#define foreach(type, item, arr, body)\
    foreachn(type, item, arr, array_len(arr), body)


int ints[] = { 1, 2, 3, 4, 5 };
foreach(int, i, ints, {
    printf("%d\n", i);

char* strs[] = { "hi!", "hello!!", "hello world", "just", "testing" };
foreach(char*, s, strs, {
    printf("%s\n", s);

char** strsp = malloc(sizeof(char*)*2);
strsp[0] = "abcd";
strsp[1] = "efgh";
foreachn(char*, s, strsp, 2, {
    printf("%s\n", s);

void (*myfun)(int i) = somefunc;
foreachf(int, i, ints, myfun);

But I think this will work only on gcc (not sure).


C does not have an implementation of for-each. When parsing an array as a point the receiver does not know how long the array is, thus there is no way to tell when you reach the end of the array. Remember, in C int* is a point to a memory address containing an int. There is no header object containing information about how many integers that are placed in sequence. Thus, the programmer needs to keep track of this.

However, for lists, it is easy to implement something that resembles a for-each loop.

for(Node* node = head; node; node = node.next) {
   /* do your magic here */

To achieve something similar for arrays you can do one of two things.

  1. use the first element to store the length of the array.
  2. wrap the array in a struct which holds the length and a pointer to the array.

The following is an example of such struct:

typedef struct job_t {
   int count;
   int* arr;
} arr_t;

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