# Basic help needed with pointers (double indirection)

i asked some time ago on an account i cant remember how to manipulate basic pointers and someone gave me a really good demo

for example

``````char *ptr = "hello" (hello = a char array)
``````

so now *ptr is pointing at h

`ptr++` = moves the ptr to point at the next element, to get its value i do *ptr and that gives me e

ok so far i hope :D but now i need to manipulate a `char **ptr` and was wondering how I do this in a way that mimmicks the effects of a 2d array?

some basic tips would be much appreciated as I need to do an assignment that has a `**ptr` to imitate a 2d array and without knowing how it does this first means I cant even solve it on paper (for example, how do you dereference a **ptr, how do you get [x][y] values etc)

thanks

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You can subscript a pointer the same way you can subscript an array, provided all the addresses have been set up correctly.

Assuming the following declaration:

``````char **ptr;
``````

here are the types of the various expressions:

```       Expression        Type      Equivalent expressions (yield same value)
----------        ----      -----------------------------------------
ptr        char **   &ptr[0]
*ptr        char *    ptr[0]
*(ptr+i)        char *    ptr[i]; &ptr[i][0]
**ptr        char      ptr[0][0]
*(*(ptr+i))        char      ptr[i][0]; *ptr[i]
*(*(ptr+i)+j)        char      ptr[i][j]
```

thus:

• `ptr` can be treated as though it was an array of strings (2-d array of char)
• `ptr[i]` points to the beginning of the i'th string in the list
• `ptr[i][j]` is the value of the j'th character of the i'th string in the list
• The expressions `ptr++` and `++ptr` will advance `ptr` to point to the next string
• The expressions `(*ptr)++` and `++(*ptr)` will advance `*ptr` to point to the next character

As for setting up your pointers, this arrangement assumes everything has already been allocated as static arrays or dynamically through `malloc`. You cannot just write

``````char **ptr = {"foo", "bar", "bletch"}; // using aggregate initializer on
// a.k.a undefined behavior
``````

or

``````char **ptr;          // ptr has not been initialized to point anywhere
ptr[0] = "foo";      // dereferencing ptr via subscript invokes undefined
ptr[1] = "bar";      // behavior
ptr[2] = "bletch";
``````

Generally, when you're using a pointer as though it was an array, you'll use `malloc` or something similar to allocate your buffers:

``````char **ptr = malloc(sizeof *ptr * N);
if (ptr)
{
ptr[0] = "foo";    // ptr[i] gets address of
ptr[1] = "bar";    // string literal
ptr[2] = "bletch";
...
}
``````

or

``````char **ptr = malloc(sizeof *ptr * N);
if (ptr)
{
size_t i;
for (i = 0; i < N; i++)
{
ptr[i] = malloc(sizeof *ptr[i] * M); // strictly speaking, the sizeof
if (ptr[i])                          // is not necessary here
{
//initialize ptr[i]
}
}
}
``````
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+1, however "`ptr` and `ptr[0]` both point to the beginning of the first string in the list" is incorrect. Unlike the case with 2D arrays (which are contiguous across all their dimensions), `ptr` does not point to the same place as `ptr[0]`. –  Max Shawabkeh Mar 15 '10 at 20:04
To make your first example work: `char* ary[] = {"foo", "bar", "bletch"}; char** ptr = &ary[0];` This would declare `ptr` as a "pointer-to-array" and since each array element is a string (which is itself an array), `ptr` is in essence a "pointer-to-array-of-arrays". Be careful when doing a double-dereference with this type of `char**` pointer; since the strings aren't the same length, you'll want to make certain you perform all necessary bounds checking. –  bta Mar 15 '10 at 20:08
@Max - you are correct (had arrays on the brain for some reason). I've removed that statement. Thanks for the catch. –  John Bode Mar 15 '10 at 21:20
How does double indirection gets saved in the memory? –  Fahad Uddin Aug 26 '10 at 1:01

A pointer to a pointer is just that. For example:

``````// Declare our double-indirection pointer.
char** ptr;
// And initialize it:
char s1[] = "hello";
char s2[] = "world";
ptr = malloc(sizeof(char*) * 2);
ptr[0] = s1;
ptr[1] = s2;
// ptr now points to a pointer that points to 'h'.
char* ptr2 = *ptr;
// ptr2 points to 'h'.
char* ptr3 = *(ptr + 1);
// ptr3 points to "w".
char c = **ptr; // could be written as *(*ptr)
// c = 'h'.
char c2 = *(*(ptr + 1));
// c2 = 'w'.
char c3 = *(*(ptr) + 1);
// c3 = 'e'.
``````
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gcc throws up wome warnings on that first line (initialization from incompatible pointer type, excess elements in scalar initializer). You're using an array initializer on a non-array type. –  John Bode Mar 15 '10 at 14:08
You are right. Edited in a fix. –  Max Shawabkeh Mar 15 '10 at 19:59

You may use them as you would a normal two-dimensional array. (Since effectively, that's what they are)

``````char** ptr = {"lorem", "ipsum", "dolor"};
char* s1 = ptr[0]; //Points to the beginning of "lorem"
char* s2 = ptr[1]; //Points to the beginning of "ipsum"
char c = ptr[2][4]; //Contains 'r'
``````

This is due to the fact that:

``````int *a;
//...
int i = a[6];
int j = *(a + 6); //Same as previous line!
``````

Cheers,

Amit Ron--

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