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I read a question on the difference between:

const char*


const char[]

where as for a while, I though arrays were just syntactic sugar for pointers. But something is bugging me, I have a pice of code similar to the following:

namespace SomeNamespace {
    const char* str = { 'b', 'l', 'a', 'h' };

I get, error: scaler object 'str' requires one element in initializer. So, I tried this:

namespace SomeNamespace {
    const char str[] = { 'b', 'l', 'a', 'h' };

It worked, at first I thought this may have to do with the fact that an extra operation is applied when it is a const char*, and GCC is never a fan of operations being performed outside a function (which is bad practice anyway), but the error does not seem to suggest so. However in:

void Func() {
    const char* str = { 'b', 'l', 'a', 'h' };

It compiles just fine as expected. Does anyone have any idea why this is so?

x86_64/i686-nacl-gcc 4(.1.4?) pepper 19 tool - chain (basically GCC).

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One's an array and one's a pointer. –  chris Sep 4 '13 at 23:58
...and if you think they're the same, think again. –  WhozCraig Sep 4 '13 at 23:59
@WhozCraig Like I said, I read a question explaining that they are different (where as before I thought arrays were syntactic sugar for pointers and basically a collection of overloaded operators). –  The Floating Brain Sep 5 '13 at 0:00
The last snippet also does not compile on my clang (Apple LLVM 4.2, clang-425.0.28) so I dunno what is up with yours. (error: "Excess elements in scaler initializer"), but I didn't expect it to. –  WhozCraig Sep 5 '13 at 0:03
I refer you to the C FAQ on this: c-faq.com/aryptr/aryptrequiv.html –  kfsone Sep 5 '13 at 6:06

1 Answer 1

up vote 4 down vote accepted

First off, it doesn't make a difference if you try to use compound initialization at namespace scope or in a function: neither should work! When you write

char const* str = ...;

you got a pointer to a sequence of chars which can, e.g., be initialized with a string literal. In any case, the chars are located somewhere else than the pointer. On the other hand, when you write

char const str[] = ...;

You define an array of chars. The size of the array is determined by the number of elements on the right side and, e.g., becomes 4 your example { 'b', 'l', 'a', 'h' }. If you used, e.g., "blah" instead the size would, of course, be 5. The elements of the array are copied into the location where str is defined in this case.

Note that char const x[] can be equivalent to writing char const* x in some contexts: when you declare a function argument, char const x[] actually is the same as char const*.

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When you write "is the same" should you not rather say "can be implicitly converted"? –  IInspectable Sep 5 '13 at 0:12
I did not know this had different behavior in different contexts, thank you for clearing that up! –  The Floating Brain Sep 5 '13 at 0:15
@IInspectable In reference to typedefs, would that be on an instance by instance basis or upon declaration of the type? –  The Floating Brain Sep 5 '13 at 0:17
@IInspectable: No. Function arguments declared as char const x[] and char const* x are identical. However, they actually are different when used as typdefs but I haven't quite figured out how. Here is a test: void f(char const x[], char const* y) { std::cout << std::is_same<decltype(x), decltype(y)>::value << '\n'; }. –  Dietmar Kühl Sep 5 '13 at 0:22
@DietmarKühl Modified example to demonstrate what I think you were referring to concerning differences as typedefs (and strangely, the same). That's a real noodle-baker. I think I may have finally found my first SO question. Thank you. –  WhozCraig Sep 5 '13 at 0:44

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