CSC/ECE 517 Fall 2009/wiki2 8 RP: Difference between revisions

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<li>[http://wapedia.mobi/en/Reflection_(computer_science) Reflection]</li>
<li>[http://wapedia.mobi/en/Reflection_(computer_science) Reflection]</li>
<li>[http://java.sun.com/docs/books/tutorial/reflect/index.html Trail: The Reflection API]</li>
<li>[http://java.sun.com/docs/books/tutorial/reflect/index.html Trail: The Reflection API]</li>
<li>[http://www.codersource.net/published/view/291/reflection_in.aspx Example in C#]</li>
<li>[http://www.codeproject.com/KB/cs/C__Reflection_Tutorial.aspx Reflection in C#] </li>
<li>[http://www.codeproject.com/KB/cs/C__Reflection_Tutorial.aspx Reflection in C#] </li>

Revision as of 23:46, 9 October 2009

Reflection Oriented Programming


Definition

Reflection is a process of reasoning about and acting up on by itself [1]. Throwing more clarity we can presume reflection as a computer code which can be dynamically modified in the process of execution. The dynamic modification depends on the code features and its run time behavior.A system which exhibits such reflective behavior is called as reflection oriented system.

Overview

This article throws light on what Reflection Oriented programming is all about. It deals with the need for such dynamic aspect and how it is useful in satisfying the practical needs. Further it highlights the research work that is carried out in this area and scope for future improvements.

Reflection oriented programming – Insights

Reflection

Reflection is the process of converting a programmatically expressed value into a component of interpreter state [2]. In the case of usual programs the information about itself (i.e the program) is lost as soon as it finishes compilation ,but in Reflection the program (object) needs to have information about its structures. This is done by storing it in the form of metadata.

There are two types of reflection based on its dynamic nature.Few programs support reflection during compilation. They are called as compile time or static reflection. Runtime reflections are those which are carried on during runtime and its the usual form of reflections.

Example of Reflections:

A simple ruby code does enough to understand the concept behind reflections

puts 12.kind_of?

The above code dynamically finds out what kind is 12 ? It returns the value integer. Thus reflection is done in ruby code to carry out operations during runtime with metaprogramming enabled.

Reflection Oriented Program as Paradigm

Reflection oriented paradigm is a new paradigm used as an extension to the object oriented paradigm. It adds various features meeting the need of various applications and its very flexible. Its a dynamic run time paradigm unlike object oriented and procedure oriented model. In this paradigm objects can be varied and modified according to the needs during the run time rather than creating static set of codes with a predetermined set of operations.


The dynamic decision in this paradigm is decided based up on the data being processed and the manipulation performed on those data sets.Here is where the knowledge about its own structure plays a crucial role. On considering an example wherein a program needs to change dynamically on various sets of data (find an instance of that data or length) ,intercepting the interpreters becomes important. In these cases the program should consist of codes just to identify the data and to decide the operations to be performed on them.

Concepts

The concept of reflection oriented programming is based upon the extension of object oriented program to dynamically shape the program based on its data. All the computations can be divided in to two categories:

  • Atomic
  • Compound

Atomic refers to when the computation is completed in a single logical step whereas compound refers to the computation that requires the completion of sub computation

To make the concept work as described earlier a new entity called meta information(information about information) is introduced.It takes into account of the details contained in the meta level.It acts as a storage wherein it contains the meta information. It changes as the state changes and its designed to hold the meta information of the current state.On encountering data it derives the information of the state, processes it and triggers the state change. These operations are performed during run time.

Reflectives

A reflective does the job of describing the behavior of meta information. The current state of meta information is reflected by the instances of reflectives or objects of reflectives.

Reflectives can be broadly classified in to two categories.

  • Simple reflective and
  • Control reflective.

Simple reflective contains the computational concepts whereas Control reflectives contains concept related to flow and control.

There is a subcategory of simple reflectives that is designed to contain the meanings of the expressed values. It is called as the value reflectives. The common notation for expressing relative is <reflective>.Numerous examples of reflectives can be found here.

Illustration

Below is an illustration of the concept for reflection in ruby. Here the class person has a function defined which is used to display the name. An object is created to the class Person and we use obj.send to send the object to the function. This shows the dynamic behavior in ruby

class Person 
 def hello (name)
  puts "hello, #{name}"
 end
end
p = Person.new 
p.send(:hello, "Sam")

List of Reflection Oriented Programming Languages

The list of reflection oriented programming languages includes programming languages which can support and implement reflection i.e. dynamically typed languages like Smalltalk,etc., scripting languages like PERL, etc.

The following is a comprehensive list of the reflection oriented programming languages:

  • APL
  • Befunge
  • Curl
  • Delphi
  • Eiffel
  • Io
  • Java(java.lang.reflect)
  • Lisp
  • Logo
  • Mathematica
  • .NET Languages
    • C#
    • VB .NET
  • Objective-C
  • Perl
  • PHP
  • Prolog
  • Python
  • Ruby
  • Scheme
  • Smalltalk
  • Snobol
  • Tcl

Examples of Reflection Oriented Languages

Example in JAVA

In JAVA, reflection is implemented by using the Java package, java.lang.reflect:


/*
In the following example in JAVA, identification of an array using reflection is demonstrated.
*/

import java.lang.reflect.*;

public class FindIfArray {
  public static void main(String str[]){
  int[] arr = {1,9,8,7};
  String strg="Hello";
  Class cl_arr= arr.getClass();
  Class cl_strg= strg.getClass();
  if(cl_arr.isArray())
    System.out.println(" arr is an array ");
  else
    System.out.println(" arr is not an array ");

  if(cl_strg.isArray())
    System.out.println(" strg is an array ");
  else
    System.out.println(" strg is not an array ");
  }
}


The output of this above program will be as follows:

C:\Reflection\javac FindIfArray.java

C:\Reflection\java FindIfArray
 arr is an array
 strg is not an array

Example in C#

To implement reflection in C#, the namespace System.Reflection is used.

The System.Reflection namespace contains classes and interfaces that provide a managed view of loaded types, methods, and fields, with the ability to dynamically create and invoke types7.


using System;
using System.Reflection;

public class MyClass
{
   public virtual int AddNumb(int numb1,int numb2)
   {
     int result = numb1 + numb2;
     return result;
   }

}

class MyMainClass
{
  public static int Main()
  {
    Console.WriteLine ("\nReflection.MethodInfo");
    // Create MyClass object

    MyClass myClassObj = new MyClass();
    // Get the Type information.

    Type myTypeObj = myClassObj.GetType();
    // Get Method Information.

    MethodInfo myMethodInfo = myTypeObj.GetMethod("AddNumb");

    object[] mParam = new object[] {5, 10};

    // Get and display the Invoke method.
    Console.Write("\nFirst method - " + myTypeObj.FullName + " returns " + myMethodInfo.Invoke(myClassObj, mParam) + "\n");

    return 0;
  }
}

In this code:

  • Firstly, we obtain the type information and myTypeObj will have the information about MyClass
  • Secondly,

by using the MethodInfo myMethodInfo = myTypeObj.GetMethod("AddNumb"); ,we can get the method's information.

  • Thirdly, the following code will invoke the AddNumb method:
myMethodInfo.Invoke(myClassObj, mParam);
//In this example, we will use the typeof keyword to obtain the
//System.Type object for a type.

Public class MyClass2
{
  int answer;
  public MyClass2()
  {
    answer = 0;
  }

  public int AddNumb(intnumb1, intnumb2)
  {
    answer = numb1 + numb2;
    return answer;
  }
}

Hence, in this way we can use reflection to obtain details of an object, method, and create objects and invoke methods at runtime.

Importance of Reflection Oriented Programming Languages

Reflection is a advanced feature which helps applications work better in the following ways[6]

  • Dynamic nature

It can be used for modifying or observing a program execution at run time.

  • Extensibility Features

An application can use external, user-defined classes by generating instances of extensibility objects using their fully-qualified names.

  • Class Browsers and Visual Development Environments

A class browser must be capable of enumeration of the class members. Visual Development Environments are at an advantage from making use of type information available in reflection to help the developer in writing code correctly.

  • Debuggers and Test Tools

Debuggers must be able to inspect the private members on the classes. Test harnesses can make use of reflection to systematically call a discoverable set of API's defined on a class, to insure a high level of code coverage in a test suite.

  • Adaptation to environment & eliminates hard-coding

Consider an application which makes use of two different classes X and Y interchangeably to do similar operations. Without reflection-oriented programming, the application might be hard-coded to call method names of class X and class Y. However, by making use of the reflection-oriented programming paradigm, the application can be designed and written to utilize reflection in order to invoke methods in classes X and Y without hard-coding method names.

Limitations of Reflection Oriented Programming Languages

  • Performance Overhead

Operations involving reflections have slower performance than the non-reflective counterparts.

  • Security Restrictions

Reflections require a run time permission which may not be present when running under a security manager.

  • Exposure of Internals

Since reflection allows code to perform operations that would be illegal in non-reflective code, such as accessing private methods and fields, the use of reflection can result in unexpected side-effects, which may cause the code to become dysfunctional and may destroy portability. Reflective code breaks abstractions and therefore may change behavior with upgrades of the platform.

Conclusion

With a few exceptions, performance problems of reflection oriented programming languages are rarely addressed and never solved completely in the research of reflection. But to make reflection oriented languages accepted by a wider community we have to prove that the implementation of reflection can take place in a way which does not affect performance too much.

References

  1. Conference on Object Oriented Programming Systems Languages and Applications : Reflection in an object-oriented concurrent language
  2. Jonathan M. Sobel Daniel P. Friedman : An Introduction to Reflection-Oriented Programming
  3. .NET Framework Class Library : System.Reflection Namespace
  4. Package : java.lang.reflect
  5. Reflection
  6. Trail: The Reflection API
  7. Reflection in C#