Let's first set aside sentinel. In terms of code complexity, for the answer in ltjax, he provides us with the code
for (iterator i=list.begin(); i!=list.end(); ++i) // first branch here
if (*i == x) // second branch here
The code can be better formed as:
auto iter = list.begin();
while(iter != list.end() && *iter != x)
Because of the cluttered(grouped) loop termination condition, one can easily see the loop termination condition without remembering all loop termination condition when going through the loop body to reason about correctness, and type less. Be aware of the bool circuit here though.
The point is that the sentinel used in here is not for reduced code complexity, but it helps us to reduce index checking in each loop. For linear search, we begin with checking if the index is with valid range, and if in, then check if the value is what we want, without the use of sentinel. But with sentinel which is placed at the end with desired value, we can dispense with index boundary checking, but only check the value, since the loop is guaranteed to terminate. This belongs to sentinel controlled loop: repeat until the desired value is seen.
Recommend reading: Introduction to algorithms,third edition, and if you have pdf format, just search for the keyword sentinel to have it all. In fact, This example is so concise and intriguing. Discussions on how to hunt for an elephant and Elephant in Cairo may interest you. Of course I am not talking about hunting elephants in real.