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Why is the first line valid but the rest invalid. I though the first was a shorthand for the second.

const char *c = "abc"; // Why valid?

const char *b = { 'a' , 'b', 'c', '\0' }; // invalid

const int *a = { 1, 2, 3, 0 }; // invalid
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up vote 0 down vote accepted

In the first case you have a string literal which are arrays of char, it will be converted to a pointer to char in this context.

In the next two cases you are attempting to use list initialization to initialize a pointer which will attempt to convert the first element of the list to a pointer which generates a warning since neither a char or an int are pointers, the same way this would:

const char *b = 'a' ;

If you had valid pointers in the list it would work fine for the first element but would be ill-formed since you have more initializers than variables.

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  • In the first line you're constructing a pointer out of a string literal (read-only memory, might be in rodata segment) and that's perfectly valid.

  • In the second line you're using the so-called "list initialization" syntax to initialize a pointer, and that's simply invalid. You can use that for an array.

  • Same for the third.

The fundamental thing to get away from this is:

const char *c = "abc";

does two things:

  1. Store in read-only memory the string literal
  2. Get a pointer out of it and initialize the pointer

While the second (and similarly the third)

const char *b = { 'a' , 'b', 'c', '\0' };
  1. Creates a char array but can't store it anywhere
  2. Tries to initialize a pointer (which simply hasn't the size nor the type to keep that data) with the data from 1. Wrong!
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We do not know what section of memory string literals are in only that it is undefined to modify them. – Shafik Yaghmour Mar 21 '14 at 14:05
Right, there might also be some subtle optimizations going on, I'll make that clear. +1 – Marco A. Mar 21 '14 at 14:09

Array and pointer isn't the same thing.

const char *c = "abc";

Initialise pointer with address of string constant. Sting constant contained elsewhere (not on stack, usually special global constant area).

const char c[] = "abc";

Initialise array of chars with given characters (with contents of given string). This one would be on stack.

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The first line is valid because the C standard allows for the creation of constant strings, because their length can be determined at compile time.

The same does not apply to pointers: the compiler can't decide whether it should allocate the memory for the array in the heap (just like a normal int[], for instance) or in regular memory, as in malloc().

If you initialize the array as:

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

then it becomes valid, because now the compiler is sure that you want an array in the heap (temporary) memory, and it will be freed from memory after you leave the code section on which this is declared.

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