In reading accelerated c++ I was confused by the explanation given for why the invariant becomes false (see code below):

The invariant is defined by the author (in this case) as:

The invariant for our while is that we have written r rows of output so far. When we define r, we give it an initial value of 0. At this point, we haven't written anything at all. Setting r to 0 obviously makes the invariant true, so we have met the first requirement.

```
// invariant: we have written r rows so far
int r = 0;
// setting r to 0 makes the invariant true
while (r != rows) {
// we can assume that the invariant is true here
// writing a row of output makes the invariant false <- WHY?
std::cout << std::endl;
// incrementing r makes the invariant true again
++r;
}
// we can conclude that the invariant is true here
```

Then later explains...

Writing a row of output causes the invariant to become false, because r is no longer the number of rows we have written

Given the definition i can't form a connection between the two.

Why does the invariant become false when a row of output is writing?

`endl`

puts a newline, so you've now written 1 row of output and have moved onto the second. Incrementing`r`

brings the number up from 0 to 1. Until you do increment`r`

after the print, it holds data that you've written 0 rows, but in actuality you've written 1. – chris Jun 1 '12 at 22:50