I'm learning about pointers:

int x[10]; 
int *p = &x

this would make a pointer type int to the first element. So, if I had 2D array, I need to use double pointer: first pointer would point to the second dimension of the array. This means :

int x[3][4] = {{1,2,3,4},{5,6,7,8},{9,9,9,9}};

and when I want to point to it I must declare the size of the second dimension like this, right ?

int *p[4] = x;

or there is another way by typing : int **p; ?

and int *p[4] is array of integer pointers which takes 4 * (sizeof(int*)), right?

  • 1
    Just aside: try avoiding pointers alltogether in C++. Use std::vector or std::array instead of C-style arrays. – xtofl Jan 30 '16 at 13:08
  • "int *p[4] is array of integer pointers which takes 4 * (sizeof(int*)), right?" - Yes. And always compile with warnings enabled (-Wall -Wextra). You'll then notice warnings about incompatible pointer types when you compile you code. Thus, it'll give you an indication that something is wrong. – Spikatrix Jan 30 '16 at 15:03
  • well .. mingw32-g++.exe -o............................ Process terminated with status 0 (0 minutes, 0 seconds) 0 errors, 0 warnings (0 minutes, 0 seconds) and : int x[3][4] = {{1,2,3,4},{5,6,7,8},{9,987,9,9}}; int (*p)[4] = x; printf("%d",p[2][1]); printf("\nsize of *p is : %d \n",sizeof(p)); -------------------------------------------------------------- output : 987 size of *p is : 4 – Hasan alattar Jan 30 '16 at 15:54
  • 1
    well... your first example is wrong (as anyone has already told you) and a compiler will give you a warning. Your second example is different from what you put in the comment int *p[4] vs int (*p)[4]. You label your output size of *p but then use sizeof(p) (p is a pointer and all pointers in C have the same size)... Maybe you should try to learn more – edc65 Jan 30 '16 at 17:47
  • @xtofl You mean arrays, not pointers, right ? You can't go anywhere in C++ without pointers. – Quentin Jan 30 '16 at 17:54

this would make a pointer type (int) to first element ..

&x is the address of array x and is of type int (*)[10] and you can't assign it to a int * type. Both are incompatible types.

So, if I had 2D array, I need to use double pointer: first pointer would point to the second dimension of the array.

In expressions, arrays converted to pointer to its first elements except when an operand of sizeof and unary & operator. Therefore, in this case the type of x will be int (*)[4] after conversion. You need a pointer to an array of 4 int instead of an array of 4 pointers

 int (*p)[4] = x;
  • well ,, yeah .. i ment the pointer points to an integer .. which is the first element of the array x .. and my question is really this : int (*p)[4] = x; is this ^^^ 4 pointers (array of pointers) or 1 pointer ? – Hasan alattar Jan 30 '16 at 15:43
  • in *p[4] declares an array of 4 pointers. p is an array here. – haccks Jan 30 '16 at 15:45
  • then why sizeof(p) is 4 ? it should be 16 .. – Hasan alattar Jan 30 '16 at 15:57
  • Not possible for sure. It should be 16 bytes if p is an array. – haccks Jan 30 '16 at 15:58

To add, the first example is not correct.

x is an array of 10 ints. p is a pointer to int and not a pointer to an array of 10 ints. When assigned to p, x decays to the type pointer to int.

The assignment should be simply:

int* p = x;

Example program:

#include <stdio.h>
main(int argc, char* argv[])
    int x[3][4] = { { 1, 2, 3, 4 }, { 5, 6, 7, 8 }, { 9, 987, 9, 9 } }; 
    int(*p)[4] = x; printf("p[2][1] %d", p[2][1]); 
    printf("\nsizeof(p) is : %d \nsizeof(*p) is : %d\n", sizeof(p), sizeof(*p)); 


p[2][1] 987
sizeof(p) is : 4
sizeof(*p) is : 16

In my system (as in yours) int and pointers are 32 bits. So the size of a pointer is 4 and the size of an int is 4 too.

p is a pointer first of all. Not an array. A pointer. It's size is 4 no less no more. That's the answer to your question

Now, just to add some useful information:

p is a pointer to an array of 4 integers. The size of what p points to is 4*4==16. (Try to change int to short in the example program, you'll have sizeof(*p) is : 8)

I can assign p=x because the type is correct, now p contains the address of x and p[0] is the same as x[0] (the same array of 4 int). p[2][3] is the same as x[2][3] and *(p[2]+3). p[2] points to the element 2 of x and p[2]+3 points to the element 3 of x[2]. (all indexing is 0 based)

// Here is not complicated matrix of size
int p[2][4]={
// points to the first Elements :: ptr
int (*ptr)[0] = &p;
// Now have the same adresse ( ptr and p )
printf("Hello world! %d \n",ptr[1][3]); // show  4 
  • 2
    Untitled1.cpp|35|error: cannot convert 'int ()[2][4]' to 'int ()[0]' in initialization| – Hasan alattar Jan 30 '16 at 15:45

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