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When I use i++++ give compile error :

for (int i=1;i<=10;i++++) {} //a.cpp:63: error: lvalue required as increment operand


int i = 0;
i++++; // a.cpp:65: error: lvalue required as increment operand

but when I use ++++i is working. Anybody explain me why ++++i regular but i++++ not regular?


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IT BUUURNSSS!!! – Chris Lutz May 13 '11 at 5:11
Why not use "+=" ? – jveazey May 13 '11 at 5:12
@John - Not quite. – Chris Lutz May 13 '11 at 5:18
++++i is equivalent to (i=(i+=1)+1) but that doesn't help any. – Windows programmer May 13 '11 at 5:27
i+=2saves you one character, and it works. Try that! – Bo Persson May 13 '11 at 12:30
up vote 13 down vote accepted

Since type of x is built-in primitive type, both expressions invoke undefined behaviour, as both attempt to modify the same object twice between two sequence points.

Don't do either of them.

Read this FAQ :

Undefined Behavior and Sequence Points

However if the type of x is a user-defined type and you've overloaded operator++ for both expressions, then both would be well-defined.

For this, see this topic to know the explanation and details:

Undefined Behavior and Sequence Points Reloaded

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Wait, why is the preincrement one UB? – Xeo May 13 '11 at 5:14
@Xeo: both attempt to modify the object twice between two sequence points – Nawaz May 13 '11 at 5:15
Isn't ++++x implemented as x.operator++().operator++() and as such not UB? – Xeo May 13 '11 at 5:16
@Xeo: x is not user-defined type! – Nawaz May 13 '11 at 5:17
@Nawaz: Nono, just that the compiler devs could've done it that way. But it seems I'm wrong after all, no sequencing between the two increments on primitive types. – Xeo May 13 '11 at 5:30

The C++ standard says in section 5.2.6 that the result of i++ is a modifiable lvalue, and in 5.3.2 that the result of ++i is a modifiable lvalue. This can help explain why i++++ and ++++i aren't required to generate diagnostics and can appear to work sometimes.

However, ++++i modifies i twice between the previous and next sequence points, so the result is still going to be undefined behaviour. ++++i is allowed to work but it doesn't have to.

Luckily for you, your compiler diagnosed i++++.

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Since I only have access to the C++0x FDIS, did this change? Because 5.2.6 of the FDIS says that the result of i++ is a (p)rvalue and only talks about the operand (i) as being a modifiable lvalue. – Xeo May 13 '11 at 5:35
I have the version dated 2003. C99 does the same thing but with less wording. If it changed the change must have been some time ago. – Windows programmer May 13 '11 at 5:52
Okay, so i++++ should be valid (but UB) in C++98/03, but is definitly invalid in C++0x/11. – Xeo May 13 '11 at 5:56
For your information, 5.2.6 in the final draft of current standard here states The result is an rvalue. – Ise Wisteria May 13 '11 at 10:07
n3290 says that the result of i++ (i being primitive type) is a prvalue. So your answer is flawed! – Prasoon Saurav Apr 4 '12 at 11:27

Because the operators' conceptual "signatures" are:

​T& operator ++(T& a);​     // pre
​T operator ++(T& a, int);​ // post
                          // note the int is solely to distinguish the two

One returns a reference (an lvalue), and the other does not. Both, however, take a reference as their argument, so the one that returns a reference (++i) can be chained, and the one that does not (i++) cannot.

Note that, as @Nawaz said, the one that works invokes undefined behavior, as would the one that doesn't work in the hypothetical even that it did.

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The type in the question is built-in type. So operator++ doesn't come into the picture. – Nawaz May 13 '11 at 5:23
Nope, see 5.2.6. – Windows programmer May 13 '11 at 5:24
@Nawaz - I was using that for illustrative purposes. I'm aware that built-in types don't use operator++ for anything, but seeing the signatures helps understand the problem. – Chris Lutz May 13 '11 at 23:43
If built-in types don't have operator++, then how come it can explain the problem? If the object of illustration is itself wrong, then how can it illustrate anything correctly? – Nawaz May 14 '11 at 2:48

As some say, ++++i is accepted by your compiler, but when it's evaluated, it produces undefined behavior in C++03.

Note that simply saying sizeof(++++i) is fine, because nothing is evaluated. Saying ++++i is fine in C++11 even if it's evaluated.

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To answer this from the "what you want to do" view: there is no point to calling i++++ to start with, because i++ does not return a reference to the incremented i variable, but the value i had before it was incremented. So i++++ would essentially do this:

  1. Copy i to a temporary variable t
  2. Increment i
  3. Copy t to a temporary variable u
  4. Increment t
  5. Throw away both t and u

So all that remains would be one increment of i.

On the other hand, ++++i does simply

  1. Increment i
  2. Increment i, again

and that can indeed be useful, not so much in an integer type but certainly when i is a non-random-access iterator, because then you can't rely on i+=2.

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