# Not Understanding Pointer Arithmetic with ++ and --

So, I am learning about pointers via http://cplusplus.com/doc/tutorial/pointers/ and I do not understand anything about the pointer arithmetic section. Could someone clear things up or point me to a tutorial about this that I may better understand.

I am especially confused with all the parentheses things like the difference between `*p++`,`(*p)++`, `*(p++)`, and etc.

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You should look into order of operations and/or operator precedence in C++. –  Matt Ball Nov 21 '11 at 16:54
Just so we can tailor our answer -- are you also confused about integer postfix operators? That is, do you understand `int i=0; i++; (i)++;`? And, do you understand the other aspects of pointer arithmetic? Do you understand `p+1` and `*(p+1) = 3`? –  Robᵩ Nov 21 '11 at 16:58
a) what exactly are you confused about? Do you understand the fully parenthesised expressions? b) Don't use pointers. They're hardly ever needed explicitly in C++, and never if you're just beginnig. –  Kerrek SB Nov 21 '11 at 16:58
@KerrekSB: Iterators use the same syntax. And there's nothing wrong with raw pointers used for iteration, it's only lifetime management that you want to avoid them. –  Ben Voigt Nov 21 '11 at 17:01
@KerrekSB: There's no such thing as void pointer arithmetic, you can't use arithmetic operations on any pointer to incomplete type, of which `void` is just one example. And `std:vector<T>::iterator` might be a raw pointer. Understanding that pointer arithmetic is measured in elements, not bytes, is fundamental to much of C++. –  Ben Voigt Nov 21 '11 at 17:05

`*p++`

For this one, `++` has higher precedence then `*` so it increments the pointer by one but retrieves the value at the original location since post-increment returns the pointer and then increments its value.

`(*p)++`

This forces the precedence in the other direction, so the pointer is de-referenced first and then the value at that location in incremented by one (but the value at the original pointer location is returned).

`*(p++)`

This one increments the pointer first so it acts the same as the first one.

An important thing to note, is that the amount the pointer is incremented is affected by the pointer type. From the link you provided:

``````char *mychar;
short *myshort;
long *mylong;
``````

`char` is one byte in length so the `++` increases the pointer by 1 (since pointers point to the beginning of each byte).

`short` is two bytes in length so the `++` increases the pointer by 2 in order to point at the start of the next short rather than the start of the next byte.

`long` is four bytes in the length so the `++` increases the pointer by 4.

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Ok, so (*p)++ affects what p is pointing at and *p++ affects the actual pointer's memory location. –  VinylScratch Nov 21 '11 at 16:59
This answer confuses preincrement and postincrement. –  Ben Voigt Nov 21 '11 at 17:02
@VinylScratch: That's right, but `*p++` (equivalent to `*(p++)`) gets the value referred to by `p`, and adjusts the pointer afterward. –  Ben Voigt Nov 21 '11 at 17:03
The first point made by this answer goes badly wrong. While ++ does have higher precedence than *, the postfix ++ deliberately returns the value of the point prior to incrementing, so that *p++ retrieves the value at the unincremented location. Please fix this. –  hardmath Nov 21 '11 at 17:05
short is NOT necessarily two bytes in length. It is sizeof short bytes. Similarly, long is sizeof long bytes. –  William Pursell Nov 21 '11 at 17:15

I found useful some years ago an explanation of strcpy, from Kernighan/Ritchie (I don't have the text available now, hope the code it's accurate): cpy_0, cpy_1, cpy_2 are all equivalent to strcpy:

``````char *cpy_0(char *t, const char *s)
{
int i = 0;
for ( ; t[i]; i++)
t[i] = s[i];
t[i] = s[i];
i++;
return t + i;
}
char *cpy_1(char *t, const char *s)
{
for ( ; *s; ++s, ++t)
*t = *s;
*t = *s;
++t;
return t;
}
char *cpy_2(char *t, const char *s)
{
while (*t++ = *s++)
;
return t;
}
``````
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First you have to understand what post increment does;
The post increment, increases the variable by one BUT the expression (p++) returns the original value of the variable to be used in the rest of the expression.

``````char   data[] = "AX12";
char* p;

p = data;
char* a = p++;

// a -> 'A'  (the original value of p was returned from p++ and assigned to a)
// p -> 'X'

p = data;   // reset;
char  l =  *(p++);

// l =  'A'. The (p++) increments the value of p. But returns the original
value to be used in the remaining expression. Thus it is the
original value that gets de-referenced by * so makeing l 'A'
// p -> 'X'
``````

Now because of operator precedence:

``````*p++ is equivalent to *(p++)
``````

Finally we have the complicated one:

``````p = data;
char m = (*p)++;

// m is 'A'. First we deference 'p' which gives us a reference to 'A'
//           Then we apply the post increment which applies to the value 'A' and makes it a 'B'
//           But we return the original value ('A') to be used in assignment to 'm'

// Note 1:   The increment was done on the original array
//           data[]  is now "BXYZ";
// Note 2:   Because it was the value that was post incremented p is unchaged.
// p -> 'B' (Not 'X')
``````
-
``````*p++
``````

Returns the content, *p, an then increases the pointer's value (postincrement). For example:

``````int numbers[2];
int *p;
p = &numbers[0];
*p = 4;        //numbers[0] = 4;
*(p + 1) = 8;  //numbers[1] = 8;
int a = *p++;  //a = 4 (the increment takes place after the evaluation)
//*++p would have returned 8 (a = 8)
int b = *p;    //b = 8 (p is now pointing to the next integer, not the initial one)
``````

``````(*p)++
``````

It increases the value of the content, *p = *p + 1;.

``````(p++); //same as p++
``````

Increases the pointer so it points to the next element (that may not exist) of the size defined when you declared the pointer.

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"increases its value" is ambiguous here. It increments the pointer, not the pointee. –  larsmans Nov 21 '11 at 18:12
I allowed myself to restate that part a bit to make sure it's not confusing. –  Kos Nov 21 '11 at 18:15
@Iarsmans you're right. –  Ignacio Contreras Pinilla Nov 21 '11 at 18:21
@loki: that expression is not undefined behavior, that fact that its done on an uninitialized pointer is the UB –  Necrolis Nov 21 '11 at 19:12
@Necrolis: In future I will be more pedantic about my explanations to make them screamingly obvious. not just obvious. –  Loki Astari Nov 21 '11 at 19:32