9.9. Incremental development versus planning¶
In this chapter I have demonstrated an approach to program development I refer to as rapid prototyping with iterative improvement. In each case, I wrote a rough draft (or prototype) that performed the basic calculation, and then tested it on a few cases, correcting flaws as I found them.
Although this approach can be effective, it can lead to code that is unnecessarily complicated—since it deals with many special cases—and unreliable—since it is hard to know if you have found all the errors.
An alternative is high-level planning, in which a little insight into
the problem can make the programming much easier. In this case the
insight is that a Time
is really a three-digit number in base 60!
The second
is the “ones column,” the minute
is the “60’s
column”, and the hour
is the “3600’s column.”
When we wrote addTime
and increment
, we were effectively doing
addition in base 60, which is why we had to “carry” from one column to
the next.
Thus an alternate approach to the whole problem is to convert
Time
s into double
s and take advantage of the fact that the
computer already knows how to do arithmetic with double
s. Here is
a function that converts a Time
into a double
:
double convertToSeconds (const Time& t) {
int minutes = t.hour * 60 + t.minute;
double seconds = minutes * 60 + t.second;
return seconds;
}
Now all we need is a way to convert from a double
to a Time
object:
Time makeTime (double secs) {
Time time;
time.hour = int (secs / 3600.0);
secs -= time.hour * 3600.0;
time.minute = int (secs / 60.0);
secs -= time.minute * 60;
time.second = secs;
return time;
}
You might have to think a bit to convince yourself that the technique I
am using to convert from one base to another is correct. Assuming you
are convinced, we can use these functions to rewrite addTime
:
Time addTime (const Time& t1, const Time& t2) {
double seconds = convertToSeconds (t1) + convertToSeconds (t2);
return makeTime (seconds);
}
The active code below uses the convertToSeconds
and makeTime
functions.
This is much shorter than the original version, and it is much easier to
demonstrate that it is correct (assuming, as usual, that the functions
it calls are correct). As an exercise, rewrite increment
the same
way.
Write your implementation of increment
in the commented area of the active
code below. If you get stuck, you can reveal the extra problem at the end for help.
Let’s write the code for the updated version of the increment
function. increment
adds a number of seconds to a Time
object and updates the values
of the object. This version should use convertToSeconds
and makeTime
.