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I think I will understand this concept better if someone can assist me in a current project that I'm working on. I want to use C to edit data at specific memory addresses, using pointers. Specifically, I have two character arrays (strings) which I need to both read data from at specific locations, and also write to at specific locations.

I'm mostly confused about syntax of pointers, such as * and -> and &.

From my understanding, the * refers to the data kept at the current memory address of the pointer. So, for example, if I wanted to edit the data at the beginning memory address of a char *p, I would do something like: (*p) = 'c';

Now, what if I wanted do to alter a character at the 2nd memory address from the beginning of p?

Also, I understand that & refers to the location of the pointer. But I don't know how to use this syntax.

Here is my example:

   int orig_length = strlen(original_string); //-1 for \0?
char *poriginal, *pnew_string;

poriginal = &original_string; 

while(orig_length>0) {
 k = 0;
 j = 0;
 while(isalpha(*(poriginal+j))) { 
 while(k > 0) {
   *(pnew_string+(j-k)) = toupper(*(poriginal+k-1)); //toupper
 if(*(poriginal+(j)) == '_') { 
   *(pnew_string+(j)) = ' '; 
 else {
   *(pnew_string+(j)) = *(poriginal+(j)); 
 orig_length = orig_length - j;
*(pnew_string+strlen(pnew_string)) = '\0'; //Syn? Is this actually necessary? 
... //program continues...

By the way, this program is meant to take one string "now_i_understand!" and reverse each word, capitalize each word, switch _ to ' ', and leave other punctuation alone: "WON I DNATSREDNU!"

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Thank you for the help everyone. I'll edit what I have above to show what I have now. –  Musicode Feb 9 '13 at 3:14

2 Answers 2

If what you are dealing with is an array of characters (and it is), use array syntax:

pnew_string[j+1] = poriginal[j+1];

Note that this syntax is equivalent to:

*(pnew_string + j + 1) = *(poriginal + j + 1);

but is more readable.

Dealing with most of the other cases you've got should be obvious given this example.

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Thank you, this confirmed the path I was heading on from researching on google. Can you actually answer me another question, though? I'm worried about this line: poriginal = &original_string; would this set poriginal pointing to the memory location of original_string? –  Musicode Feb 9 '13 at 3:07
It's impossible to say whether it'd have the intended effect or not without knowing whether original_string is a pointer or an array. (If pointer: No. If array: Yes.) –  duskwuff Feb 9 '13 at 3:43

The * and & operators are inverses of each other. A pointer object hold the address of some other object in memory (or it old a null pointer, which doesn't point to any object).

The unary * operator takes a pointer operand, and gives you the object that it points to; this is called dereferencing.

The unary & operator takes an operand that refers to an object of any type, and gives you a pointer to that object. & is the address-of operator.

For example:

int obj = 42; /* obj is an object of type int; it currently holds the value 42 */
int *ptr;     /* ptr is a pointer to an int */
ptr = &obj;   /* ptr now holds the address of obj */
printf("obj = %d\n", obj); /* prints 42 */
printf("*ptr = %d\n", *ptr); /* also prints 42; *ptr is another name for obj */

The -> operator is shorthand for dereferencing a pointer and accessing a member of what it points to. The prefix must be a pointer to a struct or union. foo->bar means the same thing as (*foo).bar, where foo is a pointer and bar is the name of a member of what foo points to.

You can also perform arithmetic on pointers. If ptr is a pointer pointing to an element of an array, then ptr + 1 points to the next element of the array, ptr + 2 points to the element after that, and so forth.

The [] array indexing operator is actually defined in terms of pointer arithmetic. ptr[2] means exactly the same thing as *(ptr+2). Combine that with the fact that an array name, in most contexts, decays to a pointer to the array's first element, and with a little thought you'll see how arr[2] refers to the third element of the array arr (third because indexing starts at 0).

I strongly recommend sections 4 (Pointers) and 6 (Arrays and Pointers) of the comp.lang.c FAQ; it will likely explain this stuff better than I have.

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