Presentation is loading. Please wait.

Presentation is loading. Please wait.

OOP with Java, David J. Barnes Input-Output1 A complex issue in programming language design. The interface to the outside world. –Differences must be accommodated.

Published byFranklin Johns Modified over 9 years ago

Similar presentations

Presentation on theme: "OOP with Java, David J. Barnes Input-Output1 A complex issue in programming language design. The interface to the outside world. –Differences must be accommodated."— Presentation transcript:

1 OOP with Java, David J. Barnes Input-Output1 A complex issue in programming language design. The interface to the outside world. –Differences must be accommodated as transparently as possible. –Character sets, end-of-line, path separators, endian-issues. Readers, Writers and Streams.

2 OOP with Java, David J. Barnes Input-Output2 The java.io Package Classes that provide an insulation layer. –The File class hides file system differences –Reader and Writer classes perform mapping to and from Unicode. –Stream classes deliver raw byte input. –Whole objects may be read and written easily.

3 OOP with Java, David J. Barnes Input-Output3 The File Class A File object represents an abstract pathname. –Represents both files and directories (folders). –Name, parent directory, size, permissions. –Constructor takes the file’s name: File info = new File("Letter.txt"); –No exception thrown if the file does not exist.

4 OOP with Java, David J. Barnes Input-Output4 Methods of the File Class File info = new File("Letter.txt"); if(info.exists()){ System.out.println("Size of "+info.getName()+ " is "+info.length()); if(info.isDirectory()){ System.out.println("The file is a directory."); } if(info.canRead()){ System.out.println("The file is readable."); } if(info.canWrite()){ System.out.println("The file is writeable."); }

5 OOP with Java, David J. Barnes Input-Output5 FileReader and FileWriter The two main classes for reading and writing text files. –A file is opened when its name is passed to their constructors. –Files should be closed (via close ) when finished with. –Their read and write methods deal with char and char[].

6 OOP with Java, David J. Barnes Input-Output6 Opening and Closing a File try{ // Try to open the file. FileReader inputFile = new FileReader(filename); // Process the file's contents.... // Close the file now that it is finished with. inputFile.close(); } catch(FileNotFoundException e){ System.out.println("Unable to open "+filename); } catch(IOException e){ // The file could not be read or closed. System.out.println("Unable to process "+filename); }

7 OOP with Java, David J. Barnes Input-Output7 Copying a Text File void copyFile(FileReader inputFile, FileWriter outputFile) throws IOException { final int bufferSize = 1024; char[] buffer = new char[bufferSize]; // Read the first chunk of characters. int numberRead = inputFile.read(buffer); while(numberRead > 0){ // Write out what was read. outputFile.write(buffer,0,numberRead); numberRead = inputFile.read(buffer); } outputFile.flush(); }

8 OOP with Java, David J. Barnes Input-Output8 Reading Single Characters void copyFile(FileReader inputFile,FileWriter outputFile){ try{ // Read the first character. int nextChar = inputFile.read(); // Have we reached the end of file? while(nextChar != -1){ outputFile.write(nextChar); // Read the next character. nextChar = inputFile.read(); } outputFile.flush(); } catch(IOException e){ System.out.println("Unable to copy a file."); }

9 OOP with Java, David J. Barnes Input-Output9 Input-Output Bottlenecks Input-output is generally a slow process. –Disk and network access are often involved. A single large read/write probably takes little more time than a small read/write. Buffered classes bundle multiple read/write operations into fewer. –Read more than is required. –Delay writing until more is ready.

10 OOP with Java, David J. Barnes Input-Output10 Buffered Reader and Writers try{ FileReader in = new FileReader(infile); BufferedReader reader = new BufferedReader(in); FileWriter out = new FileWriter(outfile); BufferedWriter writer = new BufferedWriter(out);... reader.close(); writer.close(); } catch(FileNotFoundException e){ System.out.println(e.getMessage()); } catch(IOException e){ System.out.println(e.getMessage()); }

11 OOP with Java, David J. Barnes Input-Output11 Line-by-Line Copying BufferedReader reader = new BufferedReader(...); // Read the first line. String line = reader.readLine(); // null returned on EOF. while(line != null){ // Write the whole line. writer.write(line); // Add the newline character. writer.newLine(); // Read the next line. line = reader.readLine(); }

12 OOP with Java, David J. Barnes Input-Output12 The Stream Classes Several classes that deliver input as a stream of raw bytes, or write raw bytes. –BufferedInputStream, DataInputStream, FileInputStream. –BufferedOutputStream, DataOutputStream, –FileOutputStream. Their read and write methods take byte[] rather than char[] arguments.

13 OOP with Java, David J. Barnes Input-Output13 Stream Readers and Writers InputStreamReader and Output- StreamWriter bridge the divide. Different file encodings supported. Constructed from an appropriate Stream. –Read/Write operations are delegated. –Read/Write operations take char arguments. Used to wrap System.in –new InputStreamReader(System.in)

14 OOP with Java, David J. Barnes Input-Output14 Reading and Writing Objects We often want objects to be persistent across program runs. –Defining storage methods on a per-class basis is inefficient and error-prone. –An agreed binary format is necessary for portability. –Version control is important. Serialization: ObjectInputStream and ObjectOutputStream.

15 OOP with Java, David J. Barnes Input-Output15 The StreamTokenizer Class Constructed from a Reader, to which it delegates its input requests. Returns tokens: multi-character numbers or strings. –TT_NUMBER, TT_WORD, TT_EOF. Really designed with programming language translation in mind.

16 OOP with Java, David J. Barnes Input-Output16 The StringTokenizer Class Defined in the java.util package. Splits strings into separate String tokens. –Delimiter characters are user settable (whitespace by default). –Will also return delimiters if required. Simple interface –public boolean hasMoreTokens() –public String nextToken()

17 OOP with Java, David J. Barnes Input-Output17 Finding Words String line = in.readLine(); while(line != null){ StringTokenizer tokenizer = new StringTokenizer(line,",;:.\"' \t"); while(tokenizer.hasMoreTokens()){ String word = tokenizer.nextToken(); // Print the next word. System.out.println(word); } line = in.readLine(); }

18 OOP with Java, David J. Barnes Input-Output18 Review Input-Output is usually difficult to perform in a platform-independent way. The java.io package provides the required independence. The File class supplies details of external files. Use Reader and Writer classes for text files.

19 OOP with Java, David J. Barnes Input-Output19 Review (cont.) Use Buffered classes for input-output efficiency. Use Stream classes when access to binary data is required. Stream Reader/Writer classes form a bridge between streams and readers and writers. StringTokenizer is useful for breaking up textual input.

Download ppt "OOP with Java, David J. Barnes Input-Output1 A complex issue in programming language design. The interface to the outside world. –Differences must be accommodated."

Similar presentations

1 Streams and Input/Output Files Part 2. 2 Files and Exceptions When creating files and performing I/O operations on them, the systems generates errors.

1 Streams and Input/Output Files Part 2. 2 Files and Exceptions When creating files and performing I/O operations on them, the systems generates errors.
Jan. 20041 Java I/O Yangjun Chen Dept. Business Computing University of Winnipeg.

Jan Java I/O Yangjun Chen Dept. Business Computing University of Winnipeg.
Introduction to Java 2 Programming Lecture 7 IO, Files, and URLs.

Introduction to Java 2 Programming Lecture 7 IO, Files, and URLs.
Lecture 15: I/O and Parsing

Lecture 15: I/O and Parsing
The Package Statement Group related interfaces and classes together Purpose: encapsulation and reduces name conflicts –private package classes not visible.

The Package Statement Group related interfaces and classes together Purpose: encapsulation and reduces name conflicts –private package classes not visible.
Java File I/O. File I/O is important! Being able to write and read from files is necessary and is also one common practice of a programmer. Examples include.

Java File I/O. File I/O is important! Being able to write and read from files is necessary and is also one common practice of a programmer. Examples include.
MOD III. Input / Output Streams Byte streams Programs use byte streams to perform input and output of 8-bit bytes. This Stream handles the 8-bit.

MOD III. Input / Output Streams Byte streams Programs use byte streams to perform input and output of 8-bit bytes. This Stream handles the 8-bit.
Streams www.espirity.com Dwight Deugo (dwight@espirity.com) Nesa Matic (nesa@espirity.com) Portions of the notes for this lecture include excerpts from.

Streams Dwight Deugo Nesa Matic Portions of the notes for this lecture include excerpts from.
Geoff Holmes Overview IO Zoo Stream I/O File I/O Buffering Random-Access Text Streams Examples Serialization Java IO – programs that start with import.

Geoff Holmes Overview IO Zoo Stream I/O File I/O Buffering Random-Access Text Streams Examples Serialization Java IO – programs that start with import.
File Handling and Serialization CSIS 3701: Advanced Object Oriented Programming.

File Handling and Serialization CSIS 3701: Advanced Object Oriented Programming.
1 File Output. 2 So far… So far, all of our output has been to System.out  using print(), println(), or printf() All input has been from System.in 

1 File Output. 2 So far… So far, all of our output has been to System.out  using print(), println(), or printf() All input has been from System.in 
Chapter 91 Streams and File I/O Chapter 9. 2 Announcements Project 5 due last night Project 6 assigned Exam 2 –Wed., March 21, 7:00 – 8:00 pm, LILY 1105.

Chapter 91 Streams and File I/O Chapter 9. 2 Announcements Project 5 due last night Project 6 assigned Exam 2 –Wed., March 21, 7:00 – 8:00 pm, LILY 1105.
1 Text File I/O Overview l I/O streams l Opening a text file for reading l Reading a text file l Closing a stream l Reading numbers from a text file l.

1 Text File I/O Overview l I/O streams l Opening a text file for reading l Reading a text file l Closing a stream l Reading numbers from a text file l.
Java I/O – what does it include? Command line user interface –Initial arguments to main program –System.in and System.out GUI Hardware –Disk drives ->

Java I/O – what does it include? Command line user interface –Initial arguments to main program –System.in and System.out GUI Hardware –Disk drives ->
7/2/2015CS2621 OO Design and Programming II I/O: Reading and Writing.

7/2/2015CS2621 OO Design and Programming II I/O: Reading and Writing.
Exceptions and IO Dr. Andrew Wallace PhD BEng(hons) EurIng

Exceptions and IO Dr. Andrew Wallace PhD BEng(hons) EurIng
Java I/O Input: information brought to program from an external source

Java I/O Input: information brought to program from an external source
Streams and File I/O Chapter 14. I/O Overview I/O = Input/Output In this context it is input to and output from programs Input can be from keyboard or.

Streams and File I/O Chapter 14. I/O Overview I/O = Input/Output In this context it is input to and output from programs Input can be from keyboard or.
Two Ways to Store Data in a File Text format Binary format.

Two Ways to Store Data in a File Text format Binary format.
5-Oct-15 Air Force Institute of Technology Electrical and Computer Engineering Object-Oriented Programming Design Topic : Streams and Files Maj Joel Young.

5-Oct-15 Air Force Institute of Technology Electrical and Computer Engineering Object-Oriented Programming Design Topic : Streams and Files Maj Joel Young.

Similar presentations

Ads by Google