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I have a large array in C (not C++ if that makes a difference). I want to initialize all members to the same value. I could swear I once knew a simple way to do this. I could use memset() in my case, but isn't there a way to do this that is built right into the C syntax?

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None of the answers so far mentions the designated initializer notation that is feasible with C99 and above. For example: enum { HYDROGEN = 1, HELIUM = 2, CARBON = 6, NEON = 10, … }; and struct element { char name[15]; char symbol[3]; } elements[] = { [NEON] = { "Neon", "Ne" }, [HELIUM] = { "Helium", "He" }, [HYDROGEN] = { "Hydrogen", "H" }, [CARBON] = { "Carbon", "C" }, … };. If you remove the ellipsis , those fragments do compile under C99 or C11. –  Jonathan Leffler May 11 at 14:40
    
Actually abelenky's answer is using designated initializer, but isn't fully formed initialising code –  Rob11311 Jun 5 at 14:17
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13 Answers 13

up vote 468 down vote accepted

Unless that value is 0 (in which case you can omit some part of the initializer and the corresponding elements will be initialized to 0), there's no easy way.

Don't overlook the obvious solution, though:

int myArray[10] = { 5, 5, 5, 5, 5, 5, 5, 5, 5, 5 };

Elements with missing values will be initialized to 0:

int myArray[10] = { 1, 2 }; //initialize to 1,2,0,0,0...

So this will initialize all elements to 0:

int myArray[10] = { 0 }; //all elements 0

In C++, an empty initialization list will also initialize every element to 0:

int myArray[10] = {}; //all elements 0 in C++

Remember that objects with static storage duration will initialize to 0 if no initializer is specified:

static int myArray[10]; //all elements 0

And that "0" doesn't necessarily mean "all-bits-zero", so using the above is better and more portable than memset(). (Floating point values will be initialized to +0, pointers to null value, etc.)

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Reading through the C++ standard, you can also do int array[10] = {}; to zero initialise. I don't have the C standard to check this is valid C as well though. –  workmad3 Oct 14 '08 at 13:41
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Looking at section 6.7.8 Initialization of the C99 standard, it does not appear that an empty initializer list is allowed. –  Jonathan Leffler Oct 14 '08 at 13:59
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C99 has a lot of nice features for structure and array initialization; the one feature it does not have (but Fortran IV, 1966, had) is a way to repeat a particular initializer for an array. –  Jonathan Leffler Oct 14 '08 at 14:00
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@CetinSert: What do you mean it doesn't work? It does exactly what this answer says it should do. It doesn't do what the comment in your code says, but that comment is wrong. –  Benjamin Lindley Apr 19 '13 at 3:58
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@CetinSert: You're the only one that claimed, in that comment, that all elements would be set to -1. This answer claims, rightly, that all unspecified elements get set to zero. The results of your code is in accord with this claim. –  Benjamin Lindley Apr 19 '13 at 5:02
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If your compiler is GCC you can use following syntax:

int array[1024] = {[0 ... 1023] = 5};

Check out detailed description: http://gcc.gnu.org/onlinedocs/gcc-4.1.2/gcc/Designated-Inits.html

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@qrdl I tried initializing a 2D array dynamically allocated on heap using malloc(sizeof(int [row][col])) and got compile time error on line where is used this line : arr[row][col] = {[0 ... row -1] [0 ... col-1] = -1}; The error i got was "expected expression before '{' token" Any idea on this? Thanks –  abhi Mar 15 '13 at 13:43
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@CetinSert Compiler has to add 65536 ints into static data, which is 256 K - exactly the size increase you've observed. –  qrdl Mar 29 '13 at 9:53
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@CetinSert Why should I? It is a standard compiler behaviour, not specific for designated initialisers. If you statically initialise 65536 ints, like int foo1 = 1, foo2 = 1, ..., foo65536 =1; you will get the same size increase. –  qrdl Mar 29 '13 at 20:48
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better yet: "int array[] = {[0 ... 1023] = 5}", the size of array will automatically be set to 1024, easier and safer to modify. –  Francois Apr 11 '13 at 9:19
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@Francois or for a 2d array, bool array[][COLS] = { [0...ROWS-1][0...COLS-1] = true}, though I'm not certain that's more readable than the full form. –  g33kz0r Apr 13 '13 at 6:59
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For statically initializing a large array with the same value, without multiple copy-paste, you can use macros:

#define VAL_1X     42
#define VAL_2X     VAL_1X,  VAL_1X
#define VAL_4X     VAL_2X,  VAL_2X
#define VAL_8X     VAL_4X,  VAL_4X
#define VAL_16X    VAL_8X,  VAL_8X
#define VAL_32X    VAL_16X, VAL_16X
#define VAL_64X    VAL_32X, VAL_32X

int myArray[53] = { VAL_32X, VAL_16X, VAL_4X, VAL_1X };

If you need to change the value, you have to do the replacement at only one place.

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I would only consider this in extreme cases, surely a memset is the more elegant way to express it. –  u0b34a0f6ae Oct 14 '09 at 10:41
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If the data must be ROM-able, memset can not be used. –  Prof. Falken Jul 5 '10 at 9:24
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Preprocessor will actually generate the code from #defines. With larger array dimensions the executable size will grow. But definitely + for the idea ;) –  Leonid Oct 3 '10 at 12:31
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memset initializes with a char. It can't be used to init an int array to a value like 42.. The value 0 can be used to init to zero. the value -1 can be used to init the array to -1. –  EvilTeach May 8 '11 at 2:45
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@Alcott, on old computers and still on many embedded systems, the code is eventually placed in an EPROM or ROM. ROM-able has also come to mean, in embedded systems, "code put in flash", because it has about the same implications, namely that the memory can not be written runtime. I.e. memset or any other instruction to update or change memory can not be used. Constants, though, can be expressed and flashed or ROM-ed before the program starts. –  Prof. Falken Feb 8 '12 at 8:49
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If you want to ensure that every member of the array is explicitly initialized, just omit the dimension from the declaration:

int myArray[] = { 1, 2, 3, 4, 5, 6, 7, 8, 9 };

The compiler will deduce the dimension from the initializer list. Unfortunately, for multidimensional arrays only the outermost dimension may be omitted:

int myPoints[][3] = { { 1, 2, 3 }, { 4, 5, 6 }, { 7, 8, 9} };

is OK, but

int myPoints[][] = { { 1, 2, 3 }, { 4, 5, 6 }, { 7, 8, 9} };

is not.

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is this correct ? int myPoints[10][] = { { 1, 2, 3 }, { 4, 5, 6 }, { 7, 8, 9} }; –  Praveen Gowda I V Apr 20 '12 at 12:51
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No. You are omitting the innermost dimension, which is not allowed. This will give a compiler error. –  Frank Szczerba Apr 20 '12 at 16:22
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Both initializers and length inference were introduced in C99. –  Palec Jan 5 at 20:55
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I saw some code that used this syntax:

char* array[] = 
{
    [0] = "Hello",
    [1] = "World"
};   

Where it becomes particularly useful is if you're making an array that uses enums as the index:

enum
{
    ERR_OK,
    ERR_FAIL,
    ERR_MEMORY
};

#define _ITEM(x) [x] = #x

char* array[] = 
{
    _ITEM(ERR_OK),
    _ITEM(ERR_FAIL),
    _ITEM(ERR_MEMORY)
};   

This keeps things in order, even if you happen to write some of the enum-values out of order.

More about this technique can be found here and here.

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This is C99 initializer syntax, already covered by some of the other answers. You could usefully make the declaration into char const *array[] = { ... }; or even char const * const array[] = { ... };, couldn't you? –  Jonathan Leffler Apr 29 '12 at 6:29
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int i;
for (i = 0; i < ARRAY_SIZE; ++i)
{
  myArray[i] = VALUE;
}

I think this is better than

int myArray[10] = { 5, 5, 5, 5, 5, 5, 5, 5, 5, 5...

incase the size of the array changes.

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For the record, that's basically just a slower, more verbose version of memset(myArray, VALUE, ARRAY_SIZE); –  Benson Sep 3 '11 at 19:44
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How would you use memset to initialize a int array to some value larger than 255? memset only works if the array is byte sized. –  Matt Sep 16 '11 at 17:03
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@Benson: You cannot replace the above code with memset on platforms where sizeof(int) > sizeof(char). Try it. –  ChrisWue Apr 3 '12 at 19:16
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You can do the whole static initializer thing as detailed above, but it can be a real bummer when your array size changes (when your array embiggens, if you don't add the appropriate extra initializers you get garbage).

memset gives you a runtime hit for doing the work, but no code size hit done right is immune to array size changes. I would use this solution in nearly all cases when the array was larger than, say, a few dozen elements.

If it was really important that the array was statically declared, I'd write a program to write the program for me and make it part of the build process.

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Here is another way:

static void
unhandled_interrupt(struct trap_frame *frame, int irq, void *arg)
{
    //this code intentionally left blank
}

static struct irqtbl_s vector_tbl[XCHAL_NUM_INTERRUPTS] = {
    [0 ... XCHAL_NUM_INTERRUPTS-1] {unhandled_interrupt, NULL},
};

See:

C-Extensions

Designated inits

Then ask the question: When can one use C extensions?

The code sample above is in an embedded system and will never see the light from another compiler.

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For initializing 'normal' data types (like int arrays), you can use the bracket notation, but it will zero the values after the last if there is still space in the array:

// put values 1-8, then two zeroes
int list[10] = {1,2,3,4,5,6,7,8};
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If the array happens to be int or anything with the size of int or your mem-pattern's size fits exact times into an int (i.e. all zeroes or 0xA5A5A5A5), the best way is to use memset().

Otherwise call memcpy() in a loop moving the index.

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A slightly tongue-in-cheek answer; write the statement

array = initial_value

in your favourite array-capable language (mine is Fortran, but there are many others), and link it to your C code. You'd probably want to wrap it up to be an external function.

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You can use memset function.

void *memset(void *array, int value, unsigned sizeofarray);
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True, but that was mentioned in the question. Also, memset() works bytewise and all bytes must therefore have the same value. Most typically, if you want to initialize things to a non-zero value, the value you want is not 'all bytes the same'. –  Jonathan Leffler Apr 29 '12 at 6:27
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I see no requirements in the question, so the solution must be generic: initialization of an unspecified possibly multidimensional array built from unspecified possibly structure elements with an initial member value:

#include <string.h> 

void array_init( void *start, size_t element_size, size_t elements, void *initval ){
  memcpy(        start,              initval, element_size              );
  memcpy( (char*)start+element_size, start,   element_size*(elements-1) );
}

// testing
#include <stdio.h> 

struct s {
  int a;
  char b;
} array[2][3], init;

int main(){
  init = (struct s){.a = 3, .b = 'x'};
  array_init( array, sizeof(array[0][0]), 2*3, &init );

  for( int i=0; i<2; i++ )
    for( int j=0; j<3; j++ )
      printf("array[%i][%i].a = %i .b = '%c'\n",i,j,array[i][j].a,array[i][j].b);
}

Result:

array[0][0].a = 3 .b = 'x'
array[0][1].a = 3 .b = 'x'
array[0][2].a = 3 .b = 'x'
array[1][0].a = 3 .b = 'x'
array[1][1].a = 3 .b = 'x'
array[1][2].a = 3 .b = 'x'

EDIT: start+element_size changed to (char*)start+element_size

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I'm dubious of whether or not this is a solution. I'm not sure whether sizeof(void) is even valid. –  Chris Lutz Oct 13 '09 at 23:58
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It doesn't work. Only the first two are initialised, the remainder are all uninitialised. I'm using GCC 4.0 on Mac OS X 10.4. –  dreamlax Oct 14 '09 at 0:22
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