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CS 331 - 4/23/081 A Quick and Caffeinated Overview Presented by Chris Start O bject Oriented Programming Languages:
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CS 331 - 4/23/082 Background Who made it? : James Gosling Working for? : Sun Microsystems since 1984 When? : in June 1991 Originally called: Oak, Green, then Java (from list of random words) Why? (originally): needed a safe, reliable language for consumer electronics (toasters, TVs, microwave ovens) C was not object oriented, which was necessary C++ was too large/complex and unreliable Products never marketed In 1993 w/explosion of WWW and graphical browsers, Java was found useful for Web Applets embedded into HTML code
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CS 331 - 4/23/083 Different Versions for Different Applications Java 1 was a single version for everyone Java 2 : J2EE, J2ME, J2SE, built for different types of platforms Java EE: Enterprise Edition for large “enterprise” applications Java ME: Mobile Edition was very stripped down for mobile applications Java SE: Standard Edition for most users
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CS 331 - 4/23/084 History Timeline JDK 1.0 (January 23, 1996) JDK 1.1 (February 19, 1997) inner classes added to the language (nested classes, classes completely defined within the body of another class) JavaBeans reusable software components - manipulated visually in a builder tool group objects to be moved together J2SE 1.2 (December 8, 1998) Swing graphical API integrated into core classes Sun's JVM included w/JIT compiler J2SE 1.3 (May 8, 2000)
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CS 331 - 4/23/085 More History… J2SE 1.4 (February 6, 2002) first release of the Java platform developed under the Java Community Process assert keyword Java Web Start included (Java Web Start was first released in March, 2001 for J2SE 1.3) J2SE 5.0 (September 30, 2004) Java SE 6 (December 11, 2006) Updates 2 & 3 released during 2007 Updates 4 & 5 released in 2008 Dramatic performance improvements for the core platform
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CS 331 - 4/23/086 Not Historical… Yet Java SE 7 early planning and development stages started up in August 2006; to be tentatively released in January 2009 JVM support for dynamic languages, following the prototyping work currently done on the Multi Language Virtual Machine new library for parallel computing on Multi- core processors
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CS 331 - 4/23/087 Syntax: Mostly derived from C++, but is exclusively object-oriented (unlike C++ which is structured, generic, and OOP) Almost everything is an object and all code is inside a class Numbers, Boolean values, characters are not objects for performance reasons
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CS 331 - 4/23/088 Java Characteristics… Predefined container classes (ArrayList) can only contain objects Primitive type (int) must be placed in a wrapper class Pre Java 5.0 myArray.add(new Integer(10)); Post Java 5.0 myArray.add(10); boxing (post Java5)implicitly converts primitive types to objects when put in object context
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CS 331 - 4/23/089 Hello, World example: 1. Code is saved as HelloWorldApp.java 2. Javac compiler converts to bytecode producing HelloWorldApp.class 3. HelloWorldApp.class is launched and run Used JDK6 Update 6
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CS 331 - 4/23/0810 Philosophy 5 Primary goals: use object-oriented programming methodology platform independence contain built-in support for computer networks designed to execute code from remote sources securely easy and safe to use
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CS 331 - 4/23/0811 Platform Independence able to write code, compile it once, and run on any platform/system How? Virtual Machines and the JIT compiler Java compilers convert Java Language to bytecode (simplified Virtual Machine instructions) Virtual Machine, written in native code for host hardware, interprets bytecode for execution
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CS 331 - 4/23/0812 JIT: Just In Time Compiler Vs. Static Compilation The Java bytecode is interpreted/converted to native machine code by the JIT compiler. Early versions of JIT ran slow compared to code natively compiled to machine code – got reputation of running slowly Translates the Java language code directly into native machine code No bytecode stage Good performance compared to original JIT Lose portability (not cross platform anymore!) Can be useful to provide a bytecode and a faster, optimized native version
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CS 331 - 4/23/0813 Dynamic Compilation (Sophisticated VM) VM can optimize and recompile critical parts of the program Can be faster than static compilation, recompiles code based on what is happening Combination of JIT and dynamic compilation take advantage of speed without losing portability
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CS 331 - 4/23/0814 Java’s Memory Management All Java objects are explicit heap-dynamic Allocated with new but no deallocation Ex.: myArray.add(new Integer(10)); No Pointers! Everything done by reference No access to hardware No access to absolute memory addresses No function pointers to call functions dynamically Virtual functions with inheritance to get dynamic binding of member to objects
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CS 331 - 4/23/0815 Automatic Memory Management : Garbage Collection Users don’t have to deallocate Java runtime responsible for deallocation from heap Lack of references to an object allows object to be freed Memory leaks can still happen if user keeps references to variables that they no longer need/use Will not free resources other than heap memory Ex.: files, lock on a shared resource… finalize method similar to C++ destructor Called when garbage collector is about to free resource
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CS 331 - 4/23/0816 Comparing to C++ : Simplicity Unlike C++, Java suppresses several features (such as operator overloading and multiple inheritance) for classes to simplify the language to "save the programmers from themselves" to prevent possible errors and anti- pattern design
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CS 331 - 4/23/0817 Inheritance Supports single inheritance final methods cannot be overridden in descendant classes Bindings can be statically bound to methods of subclass Abstract class: interface
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CS 331 - 4/23/0818 Abstract class: interface Partial support for multiple inheritance No constructors or nonabstract methods Only method declarations (not definitions) and named constants Not inherited, implemented by class All methods must be implemented if defined by interface “virtually” takes place of second parent class public interface Comparable { public int compareTo(Object b); }
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CS 331 - 4/23/0819 Dynamic Binding In C++ a method must be defined as virtual to allow dynamic binding In Java, all methods are dynamic unless defined as final Allows easier integration and logical flow in inheritance structure and deployment Methods defined as static or private use static binding and disallow overriding
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CS 331 - 4/23/0820 Nested Classes Hidden from all classes in their package, except for nesting class Nonstatic classes nested directly in another class have implicit pointer to nesting class Gives access of all nesting class’s methods to nested class Static classes do not have pointer, cannot access members of nesting class Static nested classes are like C++’s nested classes
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CS 331 - 4/23/0821 History tidbit: Implementations Microsoft used to ship a version of Java Virtual Machine (MSJVM) Had proprietary components which if used would not run on Sun’s JVM Sun sued MS for breach of trademark Since October 2001, Java is not shipped w/Windows, installed separately
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CS 331 - 4/23/0822 Conclusions : Started as a language to program toasters (microwave ovens, TVs, etc) Became popular because: Portable (especially across WWW) Easy to use (programmer’s like its design) Free and easy to obtain Relatively safe to program in (less reliance on the expertise of the programmer)
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CS 331 - 4/23/0823 Conclusions Continued… More consistent to principles of object-oriented programming than C++ Lack of functions = does not support procedural programming Dynamic binding is the “normal” way to bind method calls to method definitions Uses interfaces as simple form of support for multiple inheritance
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CS 331 - 4/23/0824 References : http://java.sun.com/ http://java.sun.com/ http://en.wikipedia.org/wiki/ http://en.wikipedia.org/wiki/ Sebesta, Programming Languages. 8th Edition. http://math.hws.edu/javanotes http://math.hws.edu/javanotes
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