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What is the difference between Type** name, and Type* name[]?

Why would someone use one over the other?


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There is no difference, effectively. For example, we always see char **argv and char *argv[] used interchangeably to declare arguments to main in a C program. You might choose one over the other for reasons of clarity or consistency. – Pete Wilson Oct 4 '11 at 23:11
up vote 13 down vote accepted

Well that depends, is it in a variable declaration or in a function argument? If in a variable declaration:

Type** name = &pointer_to_type;
Type* name[] = { &pointer_to_type, 0, &pointer_to_type };

The first one is a pointer to pointer to type, while the second one is an array of pointers to type of length 3.

If in a function argument, they are the same thing. Arrays decay to pointers, and both Type** name and Type* name[] are exactly the same as function arguments. However, the second form makes it clear that name is an array of pointers of unknown length, while the first one does not. I would use Type** to specify a single element and Type*[] to specify an array.

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I'm scared of you, little horse. Member for 32 days and 6000 of reputation. What's the technique? – sidyll Oct 4 '11 at 23:04
Like to add a bit about memory allocation, too: Using Type* name[] as a variable declaration automatically gets you valid memory at the first dereference (array of pointers is laid out on the stack). You could use these commands in sequence: Type* name[4]; name[3] = NULL; But if you tried that with Type** name, you'd segfault unless you manually made it point to a valid Type*. – Xavier Holt Oct 4 '11 at 23:06
@sidyll: Enthusiasm I'd guess? I even have a badge for that :P – K-ballo Oct 4 '11 at 23:06
Well, and I have a Fanatic badge :-) Anyway, congratulations for your effort and talent in answering with precision. – sidyll Oct 5 '11 at 0:08
@sidyll, thanks for a laugh... I too couldn't help noticing that little horse is on fire. @K, here's another badge for you! – eran Oct 5 '11 at 9:26

The difference between the two is mostly demonstrated when declaring/defining objects of either type.

The notation Type *name[] creates an array of unknown size (can be inferred from the initializer), Type** name creates a pointer. That means:

char *array[]={"hello", "world", 0}; /* OK, array of size 3 */
char **ptr={"hello", "world", 0};    /* not possible */

They behave differently in some expressions. Particularly, arrays can't be assigned to, but pointer variables can:

ptr++, ptr=array; /* assignment and mutation of ptr possible */
// array=whatever /* impossible */

The sizeof operator works differently on the two. sizeof(array) will depend on the number of elements of the array (may be 12 in this case), but sizeof(ptr) returns always the same size (eg. 4 on main 32-bit architectures)

Also, when declaring global variables, you mustn't mix the two:

extern char* data[];

must be accompanied in the .c file by

char* data[N];

and vice versa. Basically, defining the array means allocating several consecutive objects, whereas defining a pointer means allocating a single variable. The compiler treats both differently, and must know which is which.

However, when declaring or passing parameters to functions, they are the same. So

int main(int argc, char** argv)
int main(int argc, char* argv[]) /* the same */
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"arrays are not lvalues" They are lvalues. "so they can't be assigned to" And it would not follow anyway: (x is not an lvalue) does not imply ("x = whatever;" is ill-formed). C++ is not a simple language. ;) – curiousguy Oct 5 '11 at 2:21
@curiousguy: true. – jpalecek Oct 6 '11 at 11:44

Depends on the context.

If it defines a variable which is not a function parameter, then in Type** name, name is a pointer to a pointer to a variable of type Type and in Type* name[SOME_POSITIVE_INTEGER_CONSTANT], it's an array of pointers to variables of type Type.

If it's a function parameter, then both are the same, and name is a pointer to a pointer to a variable of type Type.

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In a variable declaration that is not a definition, you can omit SOME_POSITIVE_INTEGER_CONSTANT – curiousguy Oct 5 '11 at 2:22
@curiousguy: at file scope "int* ga[];" results in "warning: array ga' assumed to have one element". In function scope "int* ma[];" results in "error: array size missing in ma'". You want to avoid such situations. "extern int* ega[];" is OK, however. This is with gcc (3.3.4), compiled as C with all warnings enabled. – Alexey Frunze Oct 5 '11 at 2:43
There is no such thing as "file scope". You probably mean global scope. In any scope, a variable declaration without the storage class qualifier extern is also a definition. – curiousguy Oct 5 '11 at 6:09

Basically, Type** is a pointer to pointer. Think it like (Type*)* . So it points to Type* which can be a Type or Type[].

And the other one, Type* is a pointer to a Type or in this case, an array Type[]. So they are 'almost' the same.

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Please don't think of it as (Type*)*! The grammar doesn't work that way. Think of it as Type *(*), or rather Type (*(*name)): the expression (*(*name)) is of type Type. (But it doesn't work for references, or functions.) – curiousguy Oct 5 '11 at 2:25

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