Note: The two defect reports DR#637 and DR#222 are important to understand the below's behavior rationale.

For explanation, in C++0x there are `value computations`

and `side effects`

. A side effect for example is an assigment, and a value computation is determining what an lvalue refers to or reading the value out of an lvalue. Note that C++0x has no sequence points anymore and this stuff is worded in terms of "sequenced before" / "sequenced after". And it is stated that

If a side effect on a scalar object is unsequenced relative to either another side effect on the same scalar object or a value computation using the value of the same scalar object, the behavior is undefined.

`++v`

is equivalent to `v += 1`

which is equivalent to `v = v + 1`

(except that v is only evaluated once). This yields to `++ (v = v + 1)`

which I will write as `inc = inc + 1`

, where `inc`

refers to the lvalue result of `v = v + 1`

.

In C++0x `++ ++v`

is not undefined behavior because for `a = b`

the assignment is sequenced after value computation of b and a, but before value computation of the assignment expression. It follows that the asignment in `v = v + 1`

is sequenced before value computation of `inc`

. And the assignment in `inc = inc + 1`

is sequenced after value computation of `inc`

. In the end, both assignments will thus be sequenced, and there is no undefined behavior.