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Does anyone have a way to initialize an array of ints (any multi-byte type is fine really), to a non-zero and non -1 value simply? By which I mean, is there a way to do this in a one liner, without having to do each element individually:

int arr[30] = {1, 1, 1, 1, ...}; // that works, but takes too long to type

int arr[30] = {1}; // nope, that gives 1, 0, 0, 0, ...

int arr[30];
memset(arr, 1, sizeof(arr)); // That doesn't work correctly for arrays with multi-byte
                             //   types such as int

Just FYI, using memset() in this way on static arrays gives:

arr[0] = 0x01010101
arr[1] = 0x01010101
arr[2] = 0x01010101

The other option:

for(count = 0; count < 30; count++)
   arr[count] = 1;    // Yup, that does it, but it's two lines.

Anyone have other ideas? As long as it's C code, no limits on the solution. (other libs are fine)

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there's wmemset() for "wide" char arrays –  Marc B Nov 20 '12 at 16:10
wouldn't other libs require >1 line? #include libother –  mcalex Nov 20 '12 at 16:12
@MarcB - Not bad... two minor issues, first I understand wchar_t is compiler-specific and can be as small as 8 bits so that could be single byte. Second, I was hoping for something that could work on different types. But not a bad suggestion. Thanks. –  Mike Nov 20 '12 at 16:18
Mac OS X has memset_pattern4(), memset_pattern8() and memset_pattern16() since version 10.5. –  Pascal Cuoq Nov 20 '12 at 16:19
@mcalex - Touché. Ok, how about "1 liner per setting", we won't count #includes or more options to gcc –  Mike Nov 20 '12 at 16:19
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7 Answers

up vote 27 down vote accepted

This is a GCC extension:

int a[100] = {[0 ... 99] = 1};
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That is awesome, I was not aware of the syntax. +1 –  Mike Nov 20 '12 at 19:00
Note to anyone else using this, there's white space between the digits and the ... which is important –  Mike Nov 20 '12 at 19:04
@Mike check the link, you can also initialize multiple ranges and single elements. –  mux Nov 20 '12 at 19:23
Correct me if I'm wrong, but designated initializers in the C language are: typedef struct { int x; int y} type; then type t = { .x=1, .y=2 }; I have never seen the .. notation nor heard it referred to as designated initializer. I believe this is some GCC extension beyond standard C designated initializers. –  Lundin Nov 21 '12 at 7:49
@Lundin it is a GCC extension, like I mentioned, and it's described in the link under Designated Initializers section. my answer was edited, I'm not sure what it's called but I think maybe "range initializer" is more appropriate ? –  mux Nov 21 '12 at 7:57
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for (count = 0; count < 30; count++) arr[count] = 1;

One line. :)

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One line. :) very true... the letter of the law was followed with this solution –  Mike Nov 20 '12 at 17:29
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You said something about 2 lines but you can do it in one line using comma ,operator.

for(count = 0; count < 30 ; arr[count] = 1,count++);
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I actually like this solution, the , operator is so unused. –  Mike Nov 20 '12 at 17:30
which comma , operator is so unused ? I didn't get you . –  Omkant Nov 20 '12 at 17:35
I'll rephrase, "I like this solution because it uses the comma operator, and people don't use that enough" –  Mike Nov 20 '12 at 17:48
Alternatively: for(count = 0; count < 30; arr[count++] = 1); –  hammar Nov 21 '12 at 5:27
You can also write your whole C program on one single line. If someone could provide a rationale over how that makes sense, I'd be glad to hear it. –  Lundin Nov 21 '12 at 12:30
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In C you typically develop your own "support library" with macros like

#define SET_ALL(a_, n_, v_)\
  do { size_t i, n = (n_); for (i = 0; i < n; ++i) (a_)[i] = (v_); } while(0)

#define SET_ALL_A(a_, v_) SET_ALL(a_, sizeof(a_) / sizeof *(a_), v_)
#define ZERO_ALL(a_, n_) SET_ALL(a_, n_, 0)
#define ZERO_ALL_A(a_) SET_ALL_A(a_, 0)

and then use them in your code as

int arr[30];

SET_ALL_A(arr, 1);
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That's actually a really going point, why I didn't think of including just a macro to take care of it is beyond me... –  Mike Nov 20 '12 at 17:24
If you make an icky macro like this, why not write one to actually initialize the array, rather than setting it in runtime like this? Suppose "arr" has static storage duration and you want to take advantage of the special initialization rules for such variables (they are initialized before main is called). –  Lundin Nov 21 '12 at 12:27
@Lundin: If I were aware of any C feature that would allow me to initialize the array as requested, I'd use it. But alas I have no idea how to do it. I see the "icky macro" above as the best thing available in C. If you can suggest anything better, I'm all ears. –  AndreyT Nov 21 '12 at 16:01
See the answer I posted. –  Lundin Nov 22 '12 at 8:30
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One line with pointers!

for (int *p = a; p < (a + 30); p++) *p = 1;

Or if you're prematurely afraid of performance hit caused by repeatedly calculating (a + 30):

for (int *p = a + 30 - 1; p >= a; p--) *p = 1;
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The only sensible way to do this during initialization (rather than runtime) seems to be:

#define ONE1     1
#define FIVE1    ONE1, ONE1, ONE1, ONE1, ONE1
#define TEN1     FIVE1, FIVE1
#define TWENTY1  TEN1, TEN1

int array [100][4] =

And next, #define ONE2 2 and so on. You get the idea.

EDIT : The reason why I wrote so many macros was to demonstrate how flexible this solution is. For this particular case you don't need all of them. But with macros like these you can write any kind of initializer list in a quick and flexible way:

  FIFTY1, FIFTY2,  // 1,1,1,1... 50 times, then 2,2,2,2... 50 times
  TWENTY3, EIGHTY4 // 3,3,3,3... 20 times, then 4,4,4,4... 80 times
  ... // and so on
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Very neat solution, readable and extendable and compile-time! –  M. Mimpen Feb 28 at 13:04
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For initialization to a static value, I have generally considered typing it out to be preferred, as in:

int arr[30] = {1, 1, 1, 1, ...}; 

In this case, the compiler can (and usually does) spit out optimized initialization in preamble code.

Sometimes the initialization is more dynamic, as in this example:

int arr[30];
int x = fetchSomeValue();
for(int i=0; i<30; i++) arr[i] = x;

In these cases you have to code it and the general rule is to maximize readability, not minimize typing. This code will be written once and read a multitude of times.

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