For example, to count the number of items in a list, we would write the following
%%python3 count = 0 for itervar in [3, 41, 12, 9, 74, 15]: count = count + 1 print('Count: ', count)
We set the variable
count to zero before the loop starts, then we write a
for loop to run through the list of numbers. Our iteration variable is named
itervar and while we do not use
itervar in the loop, it does control the loop and cause the loop body to be executed once for each of the values in the list.
In the body of the loop, we add 1 to the current value of
count for each of the values in the list. While the loop is executing, the value of
count is the number of values we have seen "so far".
Once the loop completes, the value of
count is the total number of items. The total number "falls in our lap" at the end of the loop. We construct the loop so that we have what we want when the loop finishes.
Another similar loop that computes the total of a set of numbers is as follows:
%%python3 total = 0 for itervar in [3, 41, 12, 9, 74, 15]: total = total + itervar print('Total: ', total)
In this loop we do use the iteration variable. Instead of simply adding one to the
count as in the previous loop, we add the actual number (3, 41, 12, etc.) to the running total during each loop iteration. If you think about the variable
total, it contains the "running total of the values so far". So before the loop starts
total is zero because we have not yet seen any values, during the loop
total is the running total, and at the end of the loop
total is the overall total of all the values in the list.
As the loop executes,
total accumulates the sum of the elements; a variable used this way is sometimes called an accumulator.
Neither the counting loop nor the summing loop are particularly useful in practice because there are built-in functions
sum() that compute the number of items in a list and the total of the items in the list respectively.