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Revision as of 12:27, 7 September 2011
Collections Framework
Introduction
In this wiki, we are going to talk about collections frameworks : their history, the advantages of standard collections frameworks (like Java), compared to that of C++, the advantages of collections built into languages like Ruby compared to those having collections as class libraries. We will illustrate the advantages and compare the differences with some examples.
What is a collections framework?
A collection is a group of objects, and is essentially a container that groups multiple elements into a single unit. Since a collection is just a group of objects, some examples of a collection are : a stack of books, a dictionary, a list of names, a telephone directory. A collections framework is a system to represent and manipulate these collections.
Need for a collections framework
The need for a collections framework is to address the need for reusable collection data structures. This led to the development of many collections frameworks.
History
While most of the programming languages of the 1970's and 80's like FORTRAN and COBOL used only arrays, Smalltalk was object-oriented and was one of them that had collections. Collections in Smalltalk could be as indexed or non-indexed, indexed by explicit or implicit keys, ordered using an index or unordered, and fixed size or expandable. As an example, collections that hold key value pairs were done using Dictionaries.
| dict | dict := Dictionary new. dict at: 'Apple' put: 'Fruit'. dict at: 'Onion' put: 'Vegetable'. dict at: 'Pork' put: 'Meat'.
Then, in order to get the value for key 'Onion' we simply say :
dict at 'Onion'
which gives us 'Vegetable'. As mentioned before, to address the need for reusable collection data structures, several independent frameworks were developed. Doug Lea's collections package (released in 1995) was the first widely used collection. In 1996, a company called Object Space developed and released the Java Generic Library ,JGL, with the main goal of being consistent with C++ Standard Template Library.
The C++ Standard Template Library vs Java Collection Framework
The collections framework in Java consists of:
1.Collection Interfaces for representing different types of collections, like sets, lists and maps.
2.General-purpose Implementations which are the most commonly used implementations, designed for day to day use.
3.Legacy Implementations - The collection classes from earlier releases, Vector and Hashtable, have been retrofitted to implement the collection interfaces.
4.Special-purpose Implementations - Implementations designed for use in special situations. These implementations display nonstandard performance characteristics, usage restrictions, or behavior.
5.Concurrent Implementations - Implementations designed for highly concurrent use.
6.Wrapper Implementations - Add functionality, such as synchronization, to other implementations.
7.Convenience Implementations - High-performance "mini-implementations" of the collection interfaces.
8.Abstract Implementations - Partial implementations of the collection interfaces to facilitate custom implementations.
9.Algorithms - Static methods that perform useful functions on collections, such as sorting a list.
10.Infrastructure - Interfaces that provide essential support for the collection interfaces.
11.Array Utilities - Utility functions for arrays of primitives and reference objects. Not, strictly speaking, a part of the Collections Framework, this functionality was added to the Java platform at the same time and relies on some of the same infrastructure.
The Java collections framework was first introduced with Java 2 platform, Standard edition. version 1.2. Before collections framework was introduced, grouping of objects in Java was through the use of arrays, Vector and HashTable. The arrays, vectors and HashTable had different syntaxes for accessing members. For example, the arrays uses square bracket symbol [ ], the HashTable uses 'get and put' method and as for Vectors, it is the elementAt method. This caused a lot of inconsistency meaning programmers were using different methods to implement their own collections. Prior to Java 2, the classes lacked a central and unifying theme. There are many advantages of Java Collections framework compared to frameworks such as those in C++( standard template library). The STL (Standard Template Library) which became a part of the ANSI/ISO standard definition of the C++ language in 1994 is organized around three fundamental components namely containers - to hold objects, algorithms ( perform manipulation of elements in containers) and iterators. In addition, supporting them there are three additional components: allocators, adaptors and function objects. The JCF was introduced in 1998 and the primary difference between STL and JCF is that JCF has a singular focus - It focuses mainly on containers rather than on combination of containers and algorithms ( as STL does).
The Quality of Implementation of the C++ compiler has a large impact on usability of STL. First, the error messages involving templates are very long and hard to interpret. Then, if used without proper care, STL templates can lead to code bloat. The Java Collections Framework make programming easy by providing many useful data structures and algorithms so that the programmer does not have to write them. The performance of a program is increased considerably because of the implementation of these data structures and algorithms because the various implementations of each interface can be interchanged. Collections have much better performance compared to Vectors and HashTable in the old version. The entire standard collections framework is designed around a set of standard interfaces and several standard implementations such a LinkedList, HashSet and TreeSet are provided in these interfaces so the programmers can use them or also create their own.
Ruby vs Java's Collection Framework
The built-in arrays and hashes are a huge advantage over JCF. Ruby has a mark-and-sweep garbage collection which allows programmers the ability to code without having to worry about the need to maintain reference counts in extension libraries. Also, if an operating system allows for it, Ruby can dynamically load extension libraries. (Reference : Ruby-lang.org)