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File I/O and Exceptions File I/O Exceptions Throwing Exceptions Try statement and catch / finally clauses Checked and unchecked exceptions Throws clause.

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Presentation on theme: "File I/O and Exceptions File I/O Exceptions Throwing Exceptions Try statement and catch / finally clauses Checked and unchecked exceptions Throws clause."— Presentation transcript:

1 File I/O and Exceptions File I/O Exceptions Throwing Exceptions Try statement and catch / finally clauses Checked and unchecked exceptions Throws clause Reading for this lecture: L&L 10.8, 11.1 – 11.6

2 2 CLI File Input In a CLI, we want the user to select a file within a directory system so that its contents can be read and processed However, we must rely on the user typing in the file name (including any required path name) We can get the file name via a Scanner on System.in using the nextLine method We can read the file data via a Scanner on a File object using the nextLine method again

3 3 CLI File Input: Example import java.util.Scanner; import java.io.*; public class FileDisplay { public static void main (String [] args) throws IOException { Scanner scan = new Scanner(System.in); System.out.println("Enter name of file to display"); File file = new File(scan.nextLine()); scan = new Scanner (file); // done with keyboard while (scan.hasNext()) // ctl-D returns false System.out.println(scan.nextLine()); }

4 4 CLI File Output In a CLI, we want the user to create a file within a directory system so that its contents can be written (or overwritten!) Be careful: Your code should check for a file by that name and ask user if OK to overwrite it. Again, we rely on the user typing in the file name Again, we can get the file name via a Scanner on System.in using the nextLine method We can write the file data via a PrintStream on a File object using the println method ( System.out is a PrintStream object)

5 5 CLI File Output: Example import java.util.Scanner; import java.io.*; public class FileWrite { public static void main (String [] args) throws IOException { // Get filename and instantiate File object as before PrintStream out = new PrintStream(file); // Use ctl-D to close System.in // so scan.hasNext() will return false while (scan.hasNext()) { String line = scan.nextLine(); out.println(line); } out.close(); }

6 6 GUI File I/O In a GUI, requiring the user to enter a file name (including a path name or not) is considered to be NOT very user friendly We want our program to offer a choice of the available files so that the user can: –Move around within the available directories –Select one of the files shown in a directory

7 7 File Chooser in GUI’s Recall that a dialog box is a small window that "pops up" to interact with the user for a brief, specific purpose A file chooser, the JFileChooser class, supports a simple dialog box for this process See DisplayFile.java (page 521) DisplayFile.java

8 8 Example: DisplayFile code segment JFileChooser chooser = new JFileChooser(); int status = chooser.showOpenDialog(frame); // There is also a showSaveDialog(frame) if (status != JFileChooser.APPROVE_OPTION) ta.setText ("No File Chosen"); else { // read file File file = chooser.getSelectedFile(); Scanner scan = new Scanner (file);...

9 9 File Input/Output Notice that the main method in all three of these examples indicates that the code may throw an IOException If an error such as “file not found” occurs during a file operation, an IOException is generated by the system We’ll study exceptions in the next lecture

10 10 Exceptions An exception is an object that flags/ describes the occurrence of an unusual or erroneous situation Java has a predefined set of Exception classes for errors that can occur during execution –e.g ArithmeticException We can write our own Exception classes if needed When code in a program detects an “impossible condition”, it can throw a defined exception object The manner in which exceptions are processed is an important design consideration

11 Throwing Exceptions For code to “throw” an exception: –It must detect the “impossible” situation –Instantiate and “throw” an exception object Example (throw is a Java reserved word): if (boolean logic to detect impossible situation) throw new NameOfException(“text to print”); Some Java statements or methods in the class library may throw exceptions this way

12 12 Handling Exceptions A program can deal with an exception in one of three ways: –ignore it (Let the JVM shut down the program) –handle it where it occurs –handle it at another place in the program If we ignore it, we get something like this in the interactions pane (See Zero.java): java.lang.ArithmeticException: / by zero at Zero.main(Zero.java:17) at sun.reflect.NativeMethodAccessor… …

13 13 The try Statement / catch Clause To handle an exception in a program, the line that may throw the exception is executed within a try statement followed by one or more catch clauses Each catch clause has an exception type and reference name and is called an exception handler If an exception occurs, –Processing stops in the body of the try statement –Processing continues at the start of the first catch clause matching the type of exception that occurred The reference name can be used in the catch clause to get information about the exception

14 14 The finally Clause A try statement can have an optional clause following the catch clauses, designated by the reserved word finally The Java statements in the finally clause are always executed –If no exception is generated, the statements in the finally clause are executed after the statements in the try block complete –If an exception is generated, the statements in the finally clause are executed after the statements in the appropriate catch clause complete

15 Example of try-catch-finally try { System.out.println(Integer.parseInt(string)); } catch (NumberFormatException e) { System.out.println(“Caught exception: ” + e); } finally { System.out.println(“Done.”); }

16 16 Exception Propagation An exception can be propagated up to the caller to be handled at a higher level if it is not appropriate to handle it where it occurs Exceptions propagate up through the method calling hierarchy until they are caught and handled or until they reach the level of the main method and/or JVM See Propagation.java (page 546) Propagation.java See ExceptionScope.java (page 547) ExceptionScope.java

17 17 Checked/Unchecked Exceptions An exception is considered to be either checked or unchecked A RunTimeException or its decendents such as ArithmeticException, NullPointerException, etc are the only ones considered to be unchecked All other exceptions are considered to be checked Many of the checked exceptions are related to input / output, e.g. IOException

18 Checked Exceptions If a method can generate a checked exception, it must have a throws clause in its header (Note: “ throws ” is a different reserved word) If method1 calls method2 that has a throws clause in its method header, method1 must: –Use try-catch around the call to method2 OR –Have a throws clause in its own method header The compiler will issue an error if a checked exception is not caught or listed in a throws clause

19 Example of the throws clause public class FileDisplay { public FileDisplay() throws IOException { Scanner scan = new Scanner(System.in); System.out.println("Enter name of file"); File file = new File(scan.nextLine()); // this line may throw an IOException // and its not inside a try statement scan = new Scanner (file);

20 Unchecked Exceptions An unchecked exception does not require explicit handling Code or calls to a method that may generate an unchecked exception can be put inside a try-catch statement, but that is optional

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