Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free.

The following code confused me a bit:

char * strcpy(char * p, const char * q) {
while (*p++=*q++);

This is a stripped implementation of strcpy function. From this code, we see that pointer p and q are increamented, than dereferenced and q is assigned to p until \0 char has been reached. The thing that confuses me is first iteration of while loop. As far as I know, a pointer of array points to the first element of the array. In this code, the pointer is increamented before assignment occurs (right?), so from my understanding first element should never be assigned to p (because post increament occurs before assignment), but it does and I don't understand the magic behind. Anyone kind enough to explain why? :-)


share|improve this question
Your definitions of post/pre seem to be backwards. Post = after, Pre = before. The post-increment here shows that the first character will be copied, then the pointer will be incremented. –  Marlon Aug 30 '11 at 20:15
Why the C++ tag (and title) ? This is a C library function. –  Paul R Aug 30 '11 at 20:26
Looks like perfectly valid C++ code to me, @Paul. So why not the C++ tag? –  Rob Kennedy Aug 30 '11 at 20:29
possible duplicate of How does the pointer assignment in strcpy work? –  Rob Kennedy Aug 30 '11 at 20:31
@Rob: well it's perfectly valid Objective-C code too - perhaps it should be tagged as Objective-C then ? –  Paul R Aug 30 '11 at 20:33

8 Answers 8

up vote 9 down vote accepted

Because the ++ is after the variables, they aren't incremented until after the expression is evaluated. That's why it's the post-increment operator; the pre-increment is prefixed (++p). *++p would write to the second spot, *p++ writes to the first.

share|improve this answer
Oh SH***T, I really need to sleep :S. thanks Kevin :S –  Davita Aug 30 '11 at 20:28

No, the increment happens after the assignment.

If it were *(++p), the pointer p would be incremented and after that assigned.

share|improve this answer

p++ is post-incrementing the pointer p. So the current value of p is operated upon by the deference operator * before p is incremented.

Your reasoning would've been correct if the while loop was written as follows:

while (*++p=*++q);

In this case the increment would happen before dereferencing.

share|improve this answer

The expressions x++ and ++x have both a result (value) and a side effect.

The result of the expression x++ is the current value of x. The side effect is that the contents of x are incremented by 1.

The result of the expression ++x is the current value of x plus 1. The side effect is the same as above.

Note that the side effect doesn't have to be applied immediately after the expression is evaluated; it only has to be applied before the next sequence point. For example, given the code

x = 1;
y = 2;
z = ++x + y++;

there's no guarantee that the contents of x will be modified before the expression y++ is evaluated, or even before the result of ++x + y++ is assigned to z (neither the = nor + operators introduce a sequence point). The expression ++x evaluates to 2, but it's possible that the variable x may not contain the value 2 until after z has been assigned.

It's important to remember that the behavior of expressions like x++ + x++ is explicitly undefined by the language standard; there's no (good) way to predict what the result of the expression will be, or what value x will contain after it's been evaluated.

Postfix operators have a higher precedence than unary operators, so expressions like *p++ are parsed as *(p++) (i.e., you're applying the * operator to the result of the expression p++). Again, the result of the expression p++ is the current value of p, so while (*p++=*q++); doesn't skip the first element.

Note that the operand to the autoincrement/decrement operators must be an lvalue (essentially, an expression that refers to a memory location such that the memory can be read or modified). The result of the expression x++ or ++x is not an lvalue, so you can't write things like ++x++ or (x++)++ or ++(++x). You could write something like ++(*p++) (p++ is not an lvalue, but *p++ is), although that would probably get you slapped by anyone reading your code.

share|improve this answer

The right hand side of the expression (*q++) will be evaluated prior to *p++, and both will only be incremented after the assignment takes place.

Read the statement right to left and remember post-increment (q++ instead of ++q) happens after everything else in the line is resolved.

*q --> dereference q
=  --> assign the value
*p --> to p

increment both.

Do this until q p taking q's element = 0 which is when it reaches the null terminator.

share|improve this answer

The value of q++ is q
The value of ++q is q+1

share|improve this answer

This is a stripped implementation of strcpy function. From this code, we see that pointer p and q are increamented, than dereferenced and q is assigned to p until \0 char has been reached.

It happens the other way around. The value at *p is set to *q, then both pointers are incremented.

When you have int foo = bar++ the increment happens after foo has been set. To have it happen first you would do int foo = ++bar

share|improve this answer
@Marlon, why did you edit my post? you've inverted the meaning, which is incorrect. *p is set to *q, not the other way around unless I'm having a complete brain fart and missing something. –  Alex Aug 30 '11 at 20:32

The while loop's condition is performing post-increment. Equivalently:

while (true) {
    char* old_p = p;
    const char* old_q = q;

    ++p; // or p++;
    ++q; // or q++;

    *old_p = *old_q;
    if (*old_p == '\0')
share|improve this answer
Not quite true, because your while (*p) is looking at the next character, not the one just copied. –  Neil Aug 30 '11 at 20:29
@Neil - Ahh, silly me. Thanks for the catch! –  Toolbox Aug 30 '11 at 20:33

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.