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In higher level languages I would be able something similar to this example in C and it would be fine. However, when I compile this C example it complains bitterly. How can I assign new arrays to the array I declared?

int values[3];

   values = {1,2,3};

printf("%i", values[0]);


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See here for some ideas:… – Karl Voigtland Oct 17 '09 at 13:09
up vote 1 down vote accepted

you can declare static array with data to initialize from:

static int initvalues[3] = {1,2,3};
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Can I not do memmove(values,{1,2,3},sizeof(values)); ? – Daniel Wood Oct 17 '09 at 13:11
No, you can not do it like that. – hlovdal Oct 17 '09 at 13:28
I think you could: memmove(values, (int[3]){1,2,3}, sizeof(int[3])); See my answer below. – Karl Voigtland Oct 17 '09 at 13:48
There's no need to use memmove over memcpy here - the arrays definitely do not overlap. – caf Oct 18 '09 at 1:47
Why do you think I used memmove "over memcpy"? I just used memmove. ;-) – Michael Krelin - hacker Oct 18 '09 at 19:56

You can only do multiple assignment of the array, when you declare the array:

int values[3] = {1,2,3};

After declaration, you'll have to assign each value individually, i.e.

if (1) 
  values[0] = 1;
  values[1] = 2;
  values[2] = 3;

Or you could use a loop, depending on what values you want to use.

if (1)
  for (i = 0 ; i < 3 ; i++)
    values[i] = i+1;
share|improve this answer
This works for 3 values, but what if I had an array with 50 values? – Daniel Wood Oct 17 '09 at 13:10
Then you would use a loop, or you would memmove/memcpy like @hacker suggests in another answer. – Mark Rushakoff Oct 17 '09 at 13:13
memcpy seems tidiest. Thanks for your help. – Daniel Wood Oct 17 '09 at 13:17

In C99, using compound literals, you could do:

memcpy(values, (int[3]){1, 2, 3}, sizeof(int[3]));


int* values = (int[3]){1, 2, 3};
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+1; keep in mind that in the latter case, the array will have automatic storage duration, ie returning it from a function will get you eaten by a grue – Christoph Oct 17 '09 at 13:58
Christoph, would that mean that memmoveing from such an array would involve first initializing it in automatic storage and then copying it over? – Michael Krelin - hacker Oct 17 '09 at 14:00
@hacker: in priciple, yes, in practice, the compiler will optimize it away (for gcc, -O1 is enough) – Christoph Oct 17 '09 at 14:14
Christoph, thanks, that was my guess. – Michael Krelin - hacker Oct 17 '09 at 17:28
On the other hand, are you sure it is really automatic storage? Isn't this similar to string literals? Or would using const keyword make it behave the way string literals would? – Michael Krelin - hacker Oct 17 '09 at 17:29
 //compile time initliaztion
 int values[3] = {1,2,3}

//run time assignment
 value[0] = 1;
 value[1] = 2;
 value[2] = 3;
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This works and optimizes better under gcc with -O3 (the compiler completely removes the code), whereas the memcpy forces the memory to be copied in all cases.

template <typename Array>
struct inner
    Array x;

template <typename Array>
void assign(Array& lhs, const Array& rhs)
    inner<Array>& l( (inner<Array>&)(lhs));
    const inner<Array>& r( (inner<Array>&)(rhs));
    l = r;

int main()
    int x[100];
    int y[100];

    assign(x, y);
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It is also possible to hide the memcpy by using the compiler's block copy of structs. It makes the code ugly because of all the .i and i: but maybe it solves your specific problem.

typedef struct {
    int i[3];
} inta;

int main()
    inta d = {i:{1, 2, 3}};

    if (1)
        d = (inta){i:{4, 5, 6}};

    printf("%d %d %d\n", d.i[0], d.i[1], d.i[2]);

    return 0;
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There is also this... :)

char S[16]="";

Test what happens if you declare S[8] or S[32], to see why this is so effective.

I wrote my own string functions based on the logic of OpenBSD's strlcpy, aimed at ensuring a terminator byte MUST exist in the event of overflow, and standard strncpy won't do this so you have to watch carefully how you use it.

The method above is effective because the ="" at declaration ensures 0 bytes throughout, and sizeof(S)-1 ensures that if you overdo the quoted string passed to strncpy, you get truncation and no violation of the last 0 byte, so this is safe against overflow now, AND on accessing the string later. I aimed this at ANSI C so it ought to be safe anywhere.

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I realise that this is a string, not an array of integers, but there may be a way to translate the method accordingly, without having to write your own iteration code. – Lostgallifreyan Mar 17 '12 at 6:49

I would post this as a comment, but I don't have enough reputation. Another (perhaps dirty) way of initializing an array is to wrap it in a struct.

#include <stdio.h>

struct wrapper { int array[3]; };

int main(){
    struct wrapper a;
    struct wrapper b = {{1, 2, 3}};

    a = b;

    printf("%i %i %i", a.array[0], a.array[1], a.array[2]);

    return 0;
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