Note: The course notes on File I/O and Exceptions will be useful.

File I/O

File I/O allows a Java program to read information from files and save information to files.

There are two general kinds of file I/O: byte I/O and character I/O.

Byte I/O is useful for reading from and writing to binary files.

Character I/O is useful for reading from and writing to text files.

The InputStream and OutputStream classes are used to read and write bytes to and from files (and other sources/destinations for binary data).

The Reader and Writer classes are very much like InputStream and OutputStream, but they are used to read and write characters rather than bytes.

All 4 of the basic Input/OutputStream and Reader/Writer classes come in many different “flavors”. For example:

Making the situation even more complicated, some kinds of Stream and Reader/Writer classes are used as “adapters” or “wrappers” to add functionality to another Stream or Reader/Writer object. For example:

One of the keys to writing code to do file I/O in Java is knowing which classes, or combinations of classes, you need to use.

Reading characters from a file

Here’s a program to read every character of text from a FileReader, and count the number of occurrences of the vowels A, E, I, O, and U.

package edu.ycp.cs201.countvowels;

import java.io.FileReader;
import java.io.IOException;
import java.util.Scanner;

public class CountVowels {
    public static void main(String[] args) throws IOException {
        Scanner keyboard = new Scanner(System.in);

        String fileName;
        System.out.println("Which file? ");
        fileName = keyboard.next();

        FileReader reader = new FileReader(fileName);

        int vowelCount = 0;

        while (true){
            int c = reader.read();

            if (c < 0) {
                break;
            }

            char ch = (char) c;

            ch = Character.toLowerCase(ch);
            if (ch == 'a' || ch == 'i' || ch == 'o' || ch == 'u') {
                vowelCount++;
            }
        }
        reader.close();

        System.out.println("The file contains " + vowelCount + " vowel(s)");
    }
}

Note that when the read method returns a negative value, it means that the reader has reached the end of the input file, and there are no more text characters to be read.

Also note that after the program is done using a Stream or a Reader/Writer, it is important to call the close method on the object.

Assume that the file myFile.txt contains the following text:

Fourscore and seven years ago...

Running the CountVowels program on that file produces the following output:

Which file?
myFile.txt
The file contains 7 vowel(s)

Reading all lines of text from a file

The BufferedReader class is handy for reading a text file line-by-line.

Here is a program to find the longest line in an input text file:

package edu.ycp.cs201.countvowels;

import java.io.BufferedReader;
import java.io.FileReader;
import java.io.IOException;
import java.util.Scanner;

public class FindLongestLine {
    public static void main(String[] args) throws IOException {
        Scanner keyboard = new Scanner(System.in);

        System.out.println("Which file?");
        String fileName = keyboard.next();

        FileReader fileReader = new FileReader(fileName);
        BufferedReader reader = new BufferedReader(fileReader);

        int longest = 0;

        while (true) {

            String line = reader.readLine();
            if (line == null) {
                break;
            }

            if (line.length() > longest) {
                longest = line.length();
            }
        }

        reader.close();

        System.out.println("The longest line contained " + longest + " character(s)");
    }
}

Note several interesting things going on in this program.

The BufferedReader object serves as an “adapter” or “wrapper” for the FileReader. That means that the BufferedReader object uses the FileReader object for reading characters, but adds some additional capabilities (specifically, the ability to read complete lines of text.) Here’s a picture showing how this works:

image

The BufferedReader object contains a reference to the underlying FileReader object in one of its (private) fields.

Also note that the BufferedReader’s readLine method returns the special null reference after all of the lines of text in the file have been read.

Finally, note that calling the close method on the BufferedReader causes the underlying

Running the program on the same text file as the previous example:

Which file?
myFile.txt
The longest line contained 32 character(s)

Writing to a text file

The FileWriter class is useful for writing text to a text file.

Demo program:

package edu.ycp.cs201.countvowels;

import java.io.FileWriter;
import java.io.IOException;

public class WriteToFile {
    public static void main(String[] args) throws IOException {
        FileWriter writer = new FileWriter("pandp.txt");

        writer.write("It is a truth universally acknowledged, that a single man in\n");
        writer.write("possession of a good fortune, must be in want of a wife.\n");

        writer.close();

        System.out.println("File written successfully!");
    }
}

Note that when calling the write to write a string of text, you must manually insert newlines (\n) whenever you want to end a line and begin a new line.

This program writes the first sentence of Pride and Prejudice to a file called pandp.txt. Running the program produces the following output:

File written successfully!

After you run the program, right-click on the name of the project and choose Refresh. You will see a text file called pandp.txt appear in the project. When you open the file, you should see the two files written.

Exceptions

Note that each demo program had a main method that looked like this:

public static void main(String[] args) throws IOException {

The throws Exception part is required because operations such as opening a file, reading from a file, or writing to a file can cause an exception to be thrown. Exceptions are a feature of the Java language for allowing programs to handle “exceptional” situations. We will talk more about exceptions next time.

Summary