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One of the problems that Julius Caesar faced while expanding the Roman Empire was communicating with his generals in a secure manner—so that someone else reading the messages would not be able to understand them but that his generals could. Caesar came up with the idea of encoding his messages by simply shifting each letter to the right in the alphabet. Caesar selected a shift amount (the Key) of 3. Thus, A becomes D, B becomes E, and so forth. Nonletters are left alone. To decode a message, the letters shift to the left by 3. So, F becomes C, G becomes D, and so on. In Caesar’s time, this kind of coding (called a substitution code) was essentially unknown. Caesar was able to communicate his battle plans securely. Note: Today this kind of encryption is far too easily broken to be used.
To implement a Caesar Cipher translation scheme in Java, you will need to acquire the Key to be used and the text string to be translated. You’ll need to access the characters in the String one-by-one. Use the String.charAt() method to do this. You’ll need to translate each letter using the Key, leaving nonletters alone. You can use the Character.isLetter() method to determine whether a given character is a letter. You’ll need to use exception handling to deal with the case of a nonnumeric Key.
The Key and the String should be on one line, as illustrated. Implement the heart of the program as a method, called “translate.” It should have the following declaration: public static String translate(String inText, int key)
Following is an example of a portion of what your program’s output might look like:
Input key <space> text: 0 AbCd
Input key <space> text: 1 Testing, 1-2-3.
Translated: Uftujoh, 1-2-3.
Input key <space> text: -1 Uftujoh, 1-2-3.
Translated: Testing, 1-2-3.
Input key <space> text: X
Bad key. Not in -3..+3
Input key <space> text: 99
In this assignment, you will build a program that implements the Caesar Cipher algorithm. You must build a method called translate—public static String translate(String inText, int key)—that accepts the provided text and Key. It then uses the Caesar Cipher algorithm to translate inText into a String, called outText, which is what the method returns. If Key is greater than zero, then every character in inText is “shifted” to the right in the alphabet by Key characters. For example, if Key = 1, then “ABC” becomes “BCD.” If key is less than zero, then every character in inText is “shifted” to the left by Key characters. For example, if Key = –2, then “DEF” becomes “BCD.” The key value is guaranteed to be in the range –3..+3.
Translate must be a method with the header/signature shown above.
You also need to build a “driver”—it’s the main method—which does the following:
Complete the following steps to build a program that implements the Caesar Cipher algorithm.
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