1. Java IO Tutorial
2. Java IO Overview
3. Java IO: Files
4. Java IO: Streams
5. Java IO: Pipes
6. Java IO: Networking
7. Java IO: Byte & Char Arrays
8. Java System.in, System.out, and System.error
9. Java IO: Input Parsing
10. Java IO: Readers and Writers
11. Java IO: Concurrent IO
12. Java IO: Exception Handling
13. Java InputStream
14. Java OutputStream
15. Java FileInputStream
16. Java FileOutputStream
17. Java RandomAccessFile
18. Java File
19. Java IO: PipedInputStream
20. Java IO: PipedOutputStream
21. Java ByteArrayInputStream
22. Java ByteArrayOutputStream
23. Java IO: FilterInputStream
24. Java IO: FilterOutputStream
25. Java BufferedInputStream
26. Java BufferedOutputStream
27. Java PushbackInputStream
28. Java IO: SequenceInputStream
29. Java DataInputStream
30. Java IO: DataOutputStream
31. Java IO: PrintStream
32. Java IO: ObjectInputStream
33. Java IO: ObjectOutputStream
34. Java IO: Serializable
35. Java Reader
36. Java Writer
37. Java InputStreamReader
38. Java OutputStreamWriter
39. Java FileReader
40. Java FileWriter
41. Java IO: PipedReader
42. Java IO: PipedWriter
43. Java IO: CharArrayReader
44. Java IO: CharArrayWriter
45. Java BufferedReader
46. Java BufferedWriter
47. Java IO: FilterReader
48. Java IO: FilterWriter
49. Java PushbackReader
50. Java IO: LineNumberReader
51. Java StreamTokenizer
52. Java IO: PrintWriter
53. Java IO: StringReader
54. Java IO: StringWriter

• Java FileReader Example
• read()
• read(char[])
• Read Performance
• Transparent Buffering via BufferedReader
• FileReader Character Encoding
• Closing a FileReader

The Java FileReader class, java.io.FileReader makes it possible to read the contents of a file as a stream of characters. It works much like the FileInputStream except the FileInputStream reads bytes, whereas the FileReader reads characters. The FileReader is intended to read text, in other words. One character may correspond to one or more bytes depending on the character encoding scheme.

The Java FileReader is a subclass of the Java Reader class, so it has many of the same methods.

Java FileReader Example

Here is a simple Java FileReader example:

Reader fileReader = new FileReader("c:\\data\\input-text.txt");

int data = fileReader.read();
while(data != -1) {
  //do something with data...
  doSomethingWithData(data);

  data = fileReader.read();
}
fileReader.close();

This example first creates a FileReader which is connected directly to the file pointed to by the file path passed as parameter to the FileReader constructor. Second, this example reads all characters one char at a time from the FileReader. Third, the FileReader is closed.

Note: The proper exception handling has been skipped here for the sake of clarity. To learn more about correct exception handling, go to Java IO Exception Handling.

read()

The read() method of the Java FileReader returns an int which contains the char value of the character read. If the read() method returns -1, there is no more data to read in the FileReader, and it can be closed. That is, -1 as int value, not -1 as byte value. There is a difference here! Here is an example of reading characters from a Java FileReader until there are no more characters to read:

FileReader fileReader = new FileReader("c:\\data\\input-text.txt");

int data = fileReader.read();
while(data != -1) {
  data = fileReader.read();
}

This example only reads the characters from the FileReader but does not really do anything with them.

read(char[])

The Java FileReader also has a method that can read an array of characters instead of reading one character at a time. Here is an example of reading multiple characters into a char array:

FileReader fileReader = new FileReader("c:\\data\\input-text.txt");

char[] destination = new char[1024];

int charsRead = fileReader.read(destination, 0, destination.length);

This read(char[]) method takes the char array to read the characters into as first parameter, the offset into the array from which the characters should be written, and the maximum length of characters to write. The read(char[]) method returns the number of characters that was actually read into the char array. If there are less characters in the file than the maximum number of characters you specified, then there will be less than maximum number of characters read. Otherwise the read(char[]) method will attempt to read maximum number of characters into the array.

Read Performance

Reading an array of characters at a time is faster than reading a single character at a time from a Java FileReader. The difference can easily be a factor 10 or more in performance increase, by reading an array of characters rather than reading a single character at a time.

The exact speedup gained depends on the size of the char array you read, and the OS, hardware etc. of the computer you are running the code on. You should study the hard disk buffer sizes etc. of the target system before deciding. However buffer sizes of 8KB and up will give a good speedup. However, once your char array exceeds the capacity of the underlying OS and hardware, you won't get a bigger speedup from a bigger char array.

You will probably have to experiment with different byte array size and measure read performance, to find the optimal char array size.

Transparent Buffering via BufferedReader

You can add transparent, automatic reading and buffering of an array of bytes from a FileReader using a Java BufferedReader . The BufferedReader reads a chunk of chars into a char array from the underlying FileReader. You can then read the bytes one by one from the BufferedReader and still get a lot of the speedup that comes from reading an array of chars rather than one character at a time. Here is an example of wrapping a Java FileReader in a BufferedReader :

Reader input = new BufferedReader(
                      new FileReader("c:\\data\\input-file.txt"),
                        1024 * 1024        /* buffer size */
    );

Notice, that a BufferedReader is a Reader subclass and can be used in any place where an Reader can be used.

FileReader Character Encoding

The Java FileReader assumes that you want to decode the bytes in the file using the default character encoding for the computer your application is running on. This may not always be what you want, and you cannot change it!

If you want to specify a different character decoding scheme, don't use a FileReader. Use an Java InputStreamReader on a FileInputStream instead. The InputStreamReader lets you specify the character encoding scheme to use when reading the bytes in the underlying file.

Closing a FileReader

When you are finished reading characters from a Java FileReader you should remember to close it. Closing a FileReader is done by calling its close() method. Here is how closing a Java FileReader looks:

fileReader.close();

You can also use the try-with-resources construct introduced in Java 7. Here is how to use and close a FileReader looks with the try-with-resources construct:

try(FileReader fileReader =
    new FileReader("c:\\data\\text.txt")){

    int data = fileReader.read();
    while(data != -1) {
        System.out.print((char) data));
        data = fileReader.read();
    }
}

Notice how there is no longer any explicit close() method call to the FileReader instance. The try-with-resources construct takes care of that.