created 01/01/03
A prime number is an integer that cannot be divided by any integer other than one and itself. For example, 7 is prime because its only divisors are 1 and 7. The integer 8 is not prime because its divisors are 1, 2, 4, and 8.
Another way to define prime is:
prime(N) = prime(N, N-1)
prime(N, 1) = true
prime(N, D) = if D divides N, false
else prime(N, D-1)
For example,
prime(4) = prime(4,3) prime(4,3) = prime(4,2) prime(4,2) = false
Another example,
prime(7) = prime(7,6) prime(7,6) = prime(7,5) prime(7,5) = prime(7,4) prime(7,4) = prime(7,3) prime(7,3) = prime(7,2) prime(7,1) = true
Translate the math-like definition of prime into two Java methods that
return boolean.
Use the % operator to test divisibility.
Put your method into a class, write a testing class, and test your
program.
(Look at FactorialTester.java in this chapter.)
If you run your program for integers larger than about 12,000 (on a Windows system) you will run out of memory. Your program will stop running and report a StackOverflowError. This is because each activation in the activation chain requires some memory, and 12,000 activations uses up all the memory that has been reserved for this use.
Click here to go back to the main menu.
Assume that female rabbits live for only 4 months. Modify the math-like definition of the Fibonacci series to account for dying rabbits. Implement the new series as a Java method.
First draw a chart showing the population of rabbits by month. Then deduce the new rules for the series. You will have more base cases than in the original series.
Click here to go back to the main menu.