Because books are didactic, readability is more important than performance. It's easier for beginners to grasp the principle of algorithms if one doesn't have to figure out the optimization tricks !
In real life too this makes sense : end condition tend to be complex and influenced by each iteration. So it's much safer and more maintenable to make end conditions understandable, and hide implementation details.
If performance really matters, first think about B.Kernighan's statement: "don't diddle code to make it faster, but find better algorithms".
For very simple time critical loops, it could be worth looking at facts. The way you write your loop matters. Here some benchmarks on huge iterations searching in strings:
- traditional iterator approach checking for .end() each time: 14 seconds
- caching .end() at begin of loop in a variable : 10 seconds, 30% better !
- using counter&index, checking against .size() each time: 860 ms
- starting counting from the end backwards to 0 : 670 ms, 22% better !
- using a pointers to c_str(), reduced the whole thing to ... 63 ms !
But keep in mind that the best opptimizer is your compiler. With optimization turned on, the timings are 1274 ms, 677 ms, 42 ms, 42 ms and 33ms, i.e. from 50% to 92% better !!