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Why is

int *a = new int[10];

written as

int *a;
a = new int[10];

instead of

int *a;
*a = new int[10];


The way I see it, in the second block of code you're saying a, which was a pointer variable, is now an array. In the third block of code you're saying the thing a points to is now an array. Why does the second make more sense than the third?

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Because the C declarator syntax sucks. –  fredoverflow Jan 21 '12 at 23:55

8 Answers 8

up vote 6 down vote accepted

new int[10] returns a pointer to the first element in the array (which is of type int*). It does not return a pointer to the array (which would be of type int(*)[10]).

a = new int[10] means make a point to the first element of the dynamically allocated array. *a is not a pointer at all. It is the object pointed to by the pointer a (which is of type int).

Note that if you actually had a named array object, the syntax would still be the same:

int x[10];
int* a = x;

Why? In C++, in most cases, whenever you use an array, it is implicitly converted to a pointer to its initial element. So here, int* a = x is the same as int* a = &x[0];.

(There are several cases where the array-to-pointer decay does not occur, most notably when the array is the operand of the & or sizeof operators; they allow you to get the address of the array and the size of the array, respectively.)

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Oh, new int[10] returns a pointer! It all makes sense now, thanks. –  i love stackoverflow Jan 21 '12 at 21:22
I think the confusion partly comes from the fact that int *a = ... looks like you're dereferencing a so that when split up it should be int *a; *a = ... even though it's not the same. –  Seth Carnegie Jan 21 '12 at 21:38
That's why you should write int* a. –  Lightness Races in Orbit Jan 28 '12 at 20:50

*a = ... means assign value to memory that I'm pointing to

a = ... means assign me new memory address that I should point to

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The type int* is a pointer to an int. If you apply the derefence operator to such a pointer, you get an int (or, more precisely, actually a reference to an int, i.e. a int&) That is, when you write

int* a;
*a = new int[10]; // ERROR: incompatible types `int&` and `int*`

you try to assign the result of new int[10] which is of type int* to an object of type int&. This isn't supposed to work.

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In the third block of code you're saying the thing a points to is now an array.

You're not, though.

new doesn't evaluate to an array, but to a pointer to a block of memory. That's why you're assigning to a pointer.

It's a consequence of dynamically-allocated objects not being directly reachable in the current lexical scope.

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Because this :

a = new int[10];

and this :

*a = new int[10];

are completely different things. The 2nd is the pointer dereferencing.

This: int *a = new int[10]; and this

int *a;
a = new int[10];

are same things.

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You are assigning to a pointer variable, so you have to write a.

Would you have written

int* a = new int[10];

this would be more obvious that the type of a is int* (pointer to an `int).

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Because operator new returns the address of the object(s) it creates. *a is not an address, it's the int that a points at.

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When you declare a pointer,

int *a;

in the memory:

Memory Address   Variable Identifier  Variable Value
--------------   --------------       -------------- 
0xAE934904       a                    ?

When you create a dynamic array, you have 10 integer numbers:

a = new int[10];

Memory Address   Variable Identifier  Variable Value
--------------   --------------       -------------- 
0xH3948300       -                    ?
0xH3948304       -                    ?
0xH3948308       -                    ?
0xH394830C       -                    ?

... (in total, 10 integers) and value of a becomes 0xH3948300.

Memory Address   Variable Identifier  Variable Value
--------------   --------------       -------------- 
0xAE934904       a                    0xH3948300

On the other hand, if you write *a = new int[10]; this is *(?) which means go to the value that is stored at memory location ?. *(?) is probably not a memory space where you can store memory address. If you want to assign a value to the pointer, you simply type the identifier name, a.

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