1. Characters The data type char represents a single character in Java. –Character values are written as a symbol: ‘a’, ‘)’, ‘%’, ‘A’, etc. –A char value in Java is really represented as an integer. Each character has an associated integer value.

2. Characters –The integer value associated with the character is based upon a code. The ASCII code represents 256 characters including all upper and lower case English letters, the numbers between 0 and 9, punctuation, and some unprintable characters. ASCII is a subset of the UNICODE character set. The UNICODE character set contains 34,168 distinct characters. –The major languages from the Americas, Europe, Middle East, Africa, India, Asia, and Pacific are represented.

3. Characters The value for a particular ASCII character is the sum of the row number and the column number. –What is the integer value of the character: ‘C’? ‘<‘? ‘c’? –Remember that ‘C’ != ‘c’.

4. Characters The printable ASCII characters include tabs, new lines, carriage return, single and double quote. –New line = ‘\n’ –Tab = ‘\t’ –Single quote = ‘\’’ –Double quote = ‘\”’

5. Non-printable Characters There are also characters contained in ASCII that are not printable. –Bell tone = bel –Characters 0 to 32 are non-printable characters.

6. Characters To define a character use the char data type. –char firstChar = ‘a’, secondChar = ‘A’; To convert an integer into a character you can type cast the integer. –char thirdCharacter = (char) 120;

7. Characters You can print a char as an integer using type casting. –output.printLine( (int) ‘C’); Comparing characters is done based upon their integer representation. –True or false? ‘c’ < ‘C’ –True or false? ‘1’ < ‘4’

8. Strings A string is composed of individual characters that are treated as a single unit. –The individual characters ‘h’, ‘e’, ‘l’, ‘l’, and ‘o’ are combined into the string “hello”. A string may contain letters, digits, and special characters such as +, -, etc. String Examples: –“My name is Matilda.” –“1 + 2 = 3”

9. Strings The data type of a string is String. –The capital ‘S’ of String indicates that this data type is not a primitive data type. –In fact, String is a complex data type. When an individual string is created, it is an object of class String.

10. String Input Wu provides the method getString with the InputBox class to read strings as input. InputBox inputBox = new InputBox(); String name = inputBox.getString(“Please enter you last name: “); A string object may be created simply by assigning an actual string to a String object.

11. String Constructors Java provides various string constructors. Assume String s1 ; –s1 = new String(); This creates a string of length zero with no characters. –s1 = new String(s); This creates a string that is a copy of the characters stored in String s that is passed to the constructor.

12. Strings Each character of a String has an associated index. –The first letter of a string has an index of zero (0), the second letter has an index of one (1), … the last letter has an index of (string length – 1). –What is the string length of “hello”? –What is the index of the second ‘l’ in the word “hello”?

13. String Methods The length of a string can be found by: –stringName.length(); The first element of a string is always zero. A character at a specific position can be found by: –stringName.charAt(3); Where 3 is an index into the string.

14. Strings Once you create a string and initialize it you can not change the size of the string. –You can replace individual characters. –You can assign a new string to the string variable. The original string is lost. –You can not add new characters or remove existing characters.

15. Changing Case To change the case of characters in a string: –stringName.replace(‘l’, ‘L’); This will replace all characters ‘l’ in the string with ‘L’. If there are no ‘l’s in the string, the original string is returned. –stringName.toUpperCase(); This will change all lower case letters to capital letters. –stringName.toLowerCase(); This will change all capital letters to lower case letters.

16. String Comparison Are to strings equal to one another? –stringName.equals(stringName2); The result is true if the two strings are the same and false if the two strings are different. Capital and Lower case letters are considered to be different. –stringName == stringName2; The result is true only if stringName and stringName2 both refer to the same object in memory.

17. String Comparison You can ignore the case of letters during comparison using: –stringName.equalsIgnoreCase(StringName2); That means that “hello” is equal to “HELLO” You can also compare strings using –stringName.compareTo(StringName2); This comparison returns 0 if the strings are equal, a negative number if stringName stringName2.

18. String Comparison To compare portions of two strings: –stringName.regionMatches(0, StringName2, 0, 5); The first parameter 0 is the starting index in stringName, the third parameter is the starting index in stringName2, and the last argument is the number of characters to compare. This method returns true only if the members compared are equal. –“ello” == “ello” but “ello” != “Ello”

19. Locating Characters and Substrings indexOf can be used to find characters in strings. –stringName.indexOf((int) ‘a’); This returns the index of the first ‘a’ in the string if it is found. If it is not found the result is -1. –stringName.indexOf((int) ‘a’, 2); This is similar to the first except the second parameter specifies which index of the string the search should begin.

20. Locating Characters and Substrings lastIndexOf can be used to find characters in strings. –stringName.lastIndexOf((int) ‘a’); This returns the index of the last ‘a’ in the string if it is found. If it is not found the result is -1. –stringName.lastIndexOf((int) ‘a’, 2); This is similar to the first except the second parameter specifies the highest index of the string where search should begin.

21. Extracting Substrings Methods to get substrings out of strings are: –stringName.substring(10); This returns the string that begins at index 10. –stringName.substring(10, 15); This returns the string that begins at index 10 and ends at one index before 15.

22. Concatenating Strings We have already used string concatenation with: – “this is a string” + stringName To concatenate two string variables: –stringName3 = stringName.concat(stringName2); This returns the second string added to the end of the first string.

23. Example Program String program.

24. Other String Methods Using the Javadoc documentation you can learn about the many other String methods. –Methods for comparing regions of strings. –Converting variables of other data types to strings.

25. Primitive vs. Complex Data Types When you define a primitive data type (int, char, double, bool) the memory location is allocated. –The number of bytes is always the same to store a value. –char let = ‘A’; letA

26. Primitive vs. Complex Data Types A complex data type is a data type defined by a class. –String is an example of a complex data type. –Complex data types usually begin with a capital letter. –The amount of storage required for a Complex data type varies depending upon how large the actual values are. –Complex data types are also called reference data types.

27. Primitive vs. Complex Data Types When we define a String a memory location is allocated to hold a reference to the actual location of the information. –The reference is the location of the first item in memory. –The information is stored sequentially beginning at the reference location.

28. Primitive vs. Complex Data Types String cityName; cityName = “Rochester”; cityName 2044 1012 … 2044 2048 R o c h e s t e r 2052 2056 2060

29. Primitive vs. Complex Data Types If we define another string and assign it equal to cityName then they will both point to the same location in memory. string cityName2 = cityName; –Now cityName and cityName2 both point to memory location 1012.

30. Passing Objects to methods Some of the String methods we have talked about require a String as a parameter to the method. –For example, *.equalsTo(String); –The method definition requires a String object to be passed to the method equalsTo.

31. Passing Objects to methods –When we pass a String to a method we are passing it using call-by-reference. This means that we do not pass the actual string, we are passing the memory location that holds the reference (address) to the actual string.

32. Passing Objects to Methods –A problem associated with call-by- reference is that the original object may be modified. –All objects (both Java defined and user defined) are passed using call-by- reference.

33. Passing Primitive Data to Methods If a program passes a variable that has a primitive data type to a method, the actual value is passed using call-by- value. –The advantage is that the original value can not be modified by the method. –The disadvantage is that a copy of the original value is made, this requires more memory.

34. Example - Objects String name = “ted”; tester.myMethod(name); public void myMethod(String name1) { name1.toUpper(); }

35. Example – Primitive Data int num = 2; Tester.myMethod2(num); public void myMethod2(int num) { num += 5; }

36. Returning Objects from Methods When a method returns an object, a memory reference is really returned. –Not the actual data.

37. Returning Primitive Data from Methods When a method returns a primitive data type, then the actual value is returned.

38. Example - Objects String output; output = test.myMethod3(); public String myMethod() { String month = “April”; return month; }

39. Example – Primitive Data int output; output = test.myMethod3(); public int myMethod() { int year = 2000; return year; }