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The following code, in global scope, doesn't compile:

const char *one = "1";
const char *two = "2";
char *nums[2] = {one, two};

The error message is "initializer element not constant" - which surprises me, since the variables one and two are both declared as constant. Making nums const doesn't fix the problem. Declaring nums with string literals (char *nums[2] = {"1", "2"};) does fix the problem, but for readability reasons, I'd rather not do it this way in my actual code.

Is there a decent way to get this working?

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constant doesn't mean const, it means a literal, like "bla bla" –  Shahbaz Nov 16 '11 at 23:37

3 Answers 3

up vote 4 down vote accepted

C does not allow global initialization from variables, even if those are themselves const. By comparison to C++, C has a much stricter notion of a "constant expression".

At present, one is a mutable pointer, so it cannot possibly be considered a constant expression, but even the more correct const char * const one = "1"; wouldn't do in C. (It'd be fine in C++.)

You'll have to say:

const char * nums[2] = { "1", "2" };
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Note that const in C doesn't really mean "constant"; it means read-only. And if you provide an initializer for an array, you don't need to specify the length: const char *nums[] = { "1", "2" }; –  Keith Thompson Nov 16 '11 at 23:50
@KeithThompson: Thanks, "read-only" a good way to think of const! –  Kerrek SB Nov 16 '11 at 23:55
If you want both the individual named strings and the array, you can write char const * const one = nums[0]; etc. –  J. C. Salomon Nov 17 '11 at 2:08
@jcsalomon: Well, not really, not at the global scope in any case -- it's just the same situation in reverse. You either just use nums[0], or you can make a local pointer inside a function for convenience. –  Kerrek SB Nov 17 '11 at 2:48
@KerrekSB: Good catch. I got confused with a technique I’ve actually used, for initializing trees or lists at compile time. Something like struct Node root[] = {[0] = {.next = root+1}, [1] = {.next = root+2}, [2] = {0}};. –  J. C. Salomon Nov 17 '11 at 3:14

You could try #defineing your constants instead

#define ONE "1"
#define TWO "2"
/* const */ char *nums[2] = {ONE, TWO};
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Oh, great idea. Thanks. –  GMB Nov 16 '11 at 23:48
The const on the third line is still a very good idea, since the pointers do point to read-only memory. –  Kerrek SB Nov 16 '11 at 23:56
A problem with what you describe is that ONE == ONE is not guaranteed. –  J. C. Salomon Nov 17 '11 at 2:06
const char *one = "1";
const char *two = "2";

Here both one and two are string const irrespective of specifying const qualifier. I mean char *one = "1";would be same as const char *one = "1" . In C string const are initialized by defining during declaration and they remain unaltered through out the execution of the program.

char *nums[2]; is an array of char pointers which could be used in two ways.

first way:

const char *one = "1";
const char *two = "2";
char *num[2] = {"1","2"}; // this is same as creating array of string const

second way:

const char *one = "1";
const char *two = "2";

   int len1 = strlen(one)+1;
   int len2 = strlen(two)+1;
   nums[0] = (char *)malloc(len1);
   nums[1] = (char *)malloc(len2);
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