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I am trying to understand this whole pointer and dereference thing in C. I almost got it, but bumped into pretty simple code, which result I don't understand:

char *ptr = "Characters";
char val = *ptr;
char *chrptr = &val;
printf("Value under character pointer is: %p / %c\n", &val, val);
printf("Dereferenced character pointer: %p\n", chrptr);
printf("Array pointer: %p\n", ptr);

Now, as I understood before execution, ptr == chrptr == &val, but in reality ptr != chrptr == &val. Why is this?

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The first line is poor C. It should be char const * ptr = "Characters";. Make sure you really understand this. (But that's not related to your question.) – Kerrek SB Oct 31 '12 at 15:50
up vote 4 down vote accepted
char *ptr = "Characters"; // returns a pointer to 'C'
char val = *ptr; // dereferences the pointer to 'C' and copies 'C' into val

val has its own memory location, so the address of val will be different

 char *chrptr = &val; //chptr points to val. A different memory location.
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char *ptr = "Characters";

ptr -> | C | h | a | r | a | c | t | e | r | s | \0 |

char val = *ptr; // you copy 'C' by value from the array, ptr is still pointing 
                 // where it originally pointed

// &val is somewhere else in memory so

char *chrptr = &val;

chrptr -> | C |

if you want have chrptr point where ptr points then write

char* chrptr = ptr;
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When you assign to a char, a copy is made. So the address of that copy will not be equal to the original string.

In contrast, when you assign to a pointer, you are assigning the address of the original string (or whatever it's a pointer to).

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ptr == chrptr == &val

Only chrptr == &val part is correct, but ptr != chrptr. This is because val is a copy of the first character from ptr, i.e. 'C'. The copy is stored at a different place from the original, so its address in memory is different.

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String "Characters" is located by compiler in one memory area, but variable "val" (which is equal to 'C') is located in other memory area. That's why &val is not equal to "ptr".

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Never mind all the indirection and local variables, but your problem boils down to the same as this one:

int a = 1;
int b = 1;

Both a and b have the same value, but they're obviously different objects, and so they have different addresses. The same is true of val and ptr[0].

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Your code does the following.

char *ptr = "Characters"; //- Store "Characters" in read only data section and assign the address to variable to `ptr`.

char val = *ptr; //- Assign the value 'C' (i.e 67) to stack variable val.

char *chrptr = &val; //- Assign the address of variable val to chrptr

Here val is a stack variable hence the address of it will be in stack address range. But the string literal is stored in read-only-data section. And only ptr holds the address of that.

So obviously &val and ptr are two different addresses.

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