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In C why is it legal to do

char * str = "Hello";

but illegal to do

int * arr = {0,1,2,3};
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Cause, that ain't an array. (The standard doesn't specify that to work.) –  Mateen Ulhaq Oct 2 '11 at 17:44
Because we usually expect printf("Hello, world!\n"); to work without any variables, but no one wants to use memcpy(arr, {0,1,2,3}, sizeof arr); –  Chris Lutz Oct 2 '11 at 17:45
@ChrisLutz: Who says no one wants to? We don't use it because the language doesn't support it; the (reasonable IMHO) question is why. –  Keith Thompson Oct 2 '11 at 17:58
@KeithThonpson - As I was writing that I thought, "you know, this might be kind of useful at some point", but then cnicutar's answer reminded me that we could actually do that (albeit with slightly longer syntax). –  Chris Lutz Oct 2 '11 at 18:00

5 Answers 5

up vote 12 down vote accepted

I guess that's just how initializers work in C. However, you can do:

int *v = (int[]){1, 2, 3}; /* C99. */
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You can do the same syntax for strings to get a modifiable string "literal". –  Chris Lutz Oct 2 '11 at 17:46

As for C89:

"A string", when used outside char array initialization, is a string literal; the standard says that when you use a string literal it's as if you created a global char array initialized to that value and wrote its name instead of the literal (there's also the additional restriction that any attempt to modify a string literal results in undefined behavior). In your code you are initializing a char * with a string literal, which decays to a char pointer and everything works fine.

However, if you use a string literal to initialize a char array, several magic rules get in action, so it is no longer "as if an array ... etc" (which would not work in array initialization), but it's just a nice way to tell the compiler how the array should be initialized.

The {1, 2, 3} way to initialize arrays keeps just this semantic: it's only for initialization of array, it's not an "array literal".

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In the case of:

char * str = "Hello";

"Hello" is a string literal. It's loaded into memory (but often read-only) when the program is run, and has a memory address that can be assigned to a pointer like char *str. String literals like this are an exception, though.


int * arr = {0,1,2,3};'re effectively trying to point at an array that hasn't been put anywhere in particular in memory. arr is a pointer, not an array; it holds a memory address, but does not itself have storage for the array data. If you use int arr[] instead of int *arr, then it works, because an array like that is associated with storage for its contents. Though the array decays to a pointer to its data in many contexts, it's not the same thing.

Even with string literals, char *str = "Hello"; and char str[] = "Hello"; do different things. The first sets the pointer str to point at the string literal, and the second initializes the array str with the values from "Hello". The array has storage for its data associated with it, but the pointer just points at data that happens to be loaded into memory somewhere already.

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Because there's no point in declaring and initializing a pointer to an int array, when the array name can be used as a pointer to the first element. After

int arr[] = { 0, 1, 2, 3 };

you can use arr like an int * in almost all contexts (the exception being as operand to sizeof).

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The other exception being as the operand of the unary & address operator; &arr yields the address of the array, not of its first element (same memory location, different type). –  Keith Thompson Oct 2 '11 at 17:59

... or you can abuse the string literals and store the numbers as a string literal, which for a little endian machine will look as follows:

int * arr = (int *)"\0\0\0\0\1\0\0\0\2\0\0\0\3\0\0\0";
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A little endian machine, where sizeof int is 4, to be precise. –  Jens Mar 1 '13 at 12:11

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