I'm going to definitely agree with @Josh and @g.d.d.c's answer here, but there's a bit more that needs to be explained to understand the
for loop construct, and what its power really is. But to get that, I'd have to talk just a little bit on what an iterable object is.
for loops don't work the same way they would in another language,like Java for instance. The
for loops here require something they can iterate over. This means three datatypes (in general): lists, tuples, and dictionaries. All three of these have values that can be iterated over, and as such, a
for loop will work fine with them.
range(a, b, s) function will generate a list of values in the range [a, b), optionally with a skip value s. Since a list is iterable, we can use it with the
When you nest
for statements, you are performing a nested loop. The furthest
for statement in will operate the most often. You can compare a nested loop to an analog time piece - the second hand is the innermost
for, the minute hand is a level above that, and the hour hand is a level above that.
Now, onto this example. In the outside
for loop, we bind every value we get from the iterable list to a variable - in this case,
n. When we start the loop,
n == 2. We come to the inner
for loop, and notice that we bind the variable
x to the list
[2, 2), which would be empty - having the same start and end point in a
range() doesn't return anything. So the first time through, we would skip the inner loop.
Once we're done with the inner level loop, we come back and repeat the outer loop. So now,
n == 3. We come to the inner loop, and bind
x to the first value in the iterable range
[2, 3), which would be
2. We then perform the inner operations, as expected of the
When we finally get to a point when
n == 9 (maximum value; remember,
n can never equal 10 in this example due to the range limits),
x will be bound to the first value of the iterable range
[2, 9). So
x will start at 2, then move to 3, and so forth.
If you want to learn more on how
for loops work, then I recommend looking into list comprehensions, and even referencing Dive into Python's section on lists.