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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)


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3 Answers 3

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]


  • 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 
                                       // non-aggregate type; bad juju,
                                       // a.k.a undefined behavior


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";


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!


Amit Ron--

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