Define a class named UnfairCandyDistributor. An UnfairCandyDistributor object represents a mean big brother who is going to divide a set of candies between himself and his hungry little brother. This will be done unfairly: for every candy given to the sibling, the big brother takes for himself a number of additional candies equal to the younger sibling's total. Each UnfairCandyDistributor object should have the same method: public void nextCandy() Each time nextCandy is called, the method prints a message about who gets a candy. Each call to nextCandy produces a single line of output. This time the output is the following:
Define a class named UnfairCandyDistributor. An UnfairCandyDistributor object represents a mean big brother who is going to divide a set of candies between himself and his hungry little brother. This will be done unfairly: for every candy given to the sibling, the big brother takes for himself a number of additional candies equal to the younger sibling's total. Each UnfairCandyDistributor object should have the same method:
public void nextCandy()
Each time nextCandy is called, the method prints a message about who gets a candy. Each call to nextCandy produces a single line of output. This time the output is the following:
public class TestCandy2 {
public static void main(String[] args) {
UnfairCandyDistributor mean = new UnfairCandyDistributor();
mean.nextCandy(); // 1 for you.
mean.nextCandy(); // 1 for me.
mean.nextCandy(); // 2 for you.
mean.nextCandy(); // 1 for me.
mean.nextCandy(); // 2 for me.
mean.nextCandy(); // 3 for you.
mean.nextCandy(); // 1 for me.
mean.nextCandy(); // 2 for me.
mean.nextCandy(); // 3 for me.
mean.nextCandy(); // 4 for you.
mean.nextCandy(); // 1 for me.
mean.nextCandy(); // 2 for me.
mean.nextCandy(); // 3 for me.
mean.nextCandy(); // 4 for me.
}
}
Trending now
This is a popular solution!
Step by step
Solved in 2 steps with 1 images
