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What is reflection, and why is it useful?

I'm particularly interested in Java, but I assume the principles are the same in any language!

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15 Answers 15

up vote 475 down vote accepted

The name reflection is used to describe code which is able to inspect other code in the same system (or itself).

For example, say you have an object of an unknown type in Java, and you would like to call a 'doSomething' method on it if one exists. Java's static typing system isn't really designed to support this unless the object conforms to a known interface, but using reflection, your code can look at the object and find out if it has a method called 'doSomething' and then call it if you want to.

So, to give you a code example of this in Java (imagine the object in question is foo) :

Method method = foo.getClass().getMethod("doSomething", null);
method.invoke(foo, null);

One very common use case in Java is the usage with annotations. JUnit 4, for example, will use reflection to look through your classes for methods tagged with the @Test annotation, and will then call them when running the unit test.

There are some good reflection examples to get you started at http://docs.oracle.com/javase/tutorial/reflect/index.html

And finally, yes, the concepts are pretty much similar in other statically types languages which support reflection (like C#). In dynamically typed languages, the use case described above is less necessary (since the compiler will allow any method to be called on any object, failing at runtime if it does not exist), but the second case of looking for methods which are marked or work in a certain way is still common.

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7  
can u please explain what is the significance of that null parameter in this line Method method = foo.getClass().getMethod("doSomething", null); –  Krsna Chaitanya Nov 23 '12 at 5:59
12  
The null indicates there are no parameters being passed to the foo method. See docs.oracle.com/javase/6/docs/api/java/lang/reflect/…, java.lang.Object...) for details. –  Matt Sheppard Nov 27 '12 at 1:14
228  
Just to clear up since this has so many upvotes. The ability to inspect the code in the system and see object types is not reflection, but rather Type Introspection. Reflection is then the ability to make modifications at runtime by making use of introspection. The distinction is necessary here as some languages support introspection, but do not support reflection. One such example is C++. –  bigtunacan Mar 12 '13 at 3:46
7  
Fair enough...Interesting distinction :) –  Matt Sheppard Mar 13 '13 at 5:04
4  
I love reflection but if you have control over the code then using reflection as specifide in this answer is unnessary and therefore an abuse--You should use Type Introspection (instanceof) and strong types. If there is any way but reflection to do something, that's how it should be done. Reflection causes serious heartache because you lose all advantages of using a statically typed language. If you need it you need it, however even then I'd consider a pre-packaged solution like Spring or something that completely encapsulates the reflection necessary--IE: let someone else have the headaches. –  Bill K Jul 29 '13 at 15:50

"Reflection" is a language's ability to inspect and dynamically call classes, methods, attributes, etc. at runtime. For example, all objects in Java has the method getClass, which lets you determine its class even if you don't know it at compile time (like if you declared it as Object) - this might seem trivial, but such reflection is not by default possible in less dynamic languages such as C++.

More advanced uses lets you list and call methods, constructors, etc.

Reflection is important since it lets you write programs that does not have to "know" everything at compile time, making them more dynamic, since they can be tied together at runtime. The code can be written against known interfaces, but the actual classes to be used can be instantiated using reflection from configuration files.

Lots of modern frameworks uses reflection extensively for this very reason.

Most other modern languages uses reflection as well, and in script languages like Python can be said to be even more tightly integrated, since it matches more naturally with the general programming model for those languages.

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One of my favorite uses of reflection is the below Java dump method. It takes any object as a parameter and uses the Java reflection API print out every field name and value.

import java.lang.reflect.Array;
import java.lang.reflect.Field;

public static String dump(Object o, int callCount) {
    callCount++;
    StringBuffer tabs = new StringBuffer();
    for (int k = 0; k < callCount; k++) {
        tabs.append("\t");
    }
    StringBuffer buffer = new StringBuffer();
    Class oClass = o.getClass();
    if (oClass.isArray()) {
        buffer.append("\n");
        buffer.append(tabs.toString());
        buffer.append("[");
        for (int i = 0; i < Array.getLength(o); i++) {
            if (i < 0)
                buffer.append(",");
            Object value = Array.get(o, i);
            if (value.getClass().isPrimitive() ||
                    value.getClass() == java.lang.Long.class ||
                    value.getClass() == java.lang.String.class ||
                    value.getClass() == java.lang.Integer.class ||
                    value.getClass() == java.lang.Boolean.class
                    ) {
                buffer.append(value);
            } else {
                buffer.append(dump(value, callCount));
            }
        }
        buffer.append(tabs.toString());
        buffer.append("]\n");
    } else {
        buffer.append("\n");
        buffer.append(tabs.toString());
        buffer.append("{\n");
        while (oClass != null) {
            Field[] fields = oClass.getDeclaredFields();
            for (int i = 0; i < fields.length; i++) {
                buffer.append(tabs.toString());
                fields[i].setAccessible(true);
                buffer.append(fields[i].getName());
                buffer.append("=");
                try {
                    Object value = fields[i].get(o);
                    if (value != null) {
                        if (value.getClass().isPrimitive() ||
                                value.getClass() == java.lang.Long.class ||
                                value.getClass() == java.lang.String.class ||
                                value.getClass() == java.lang.Integer.class ||
                                value.getClass() == java.lang.Boolean.class
                                ) {
                            buffer.append(value);
                        } else {
                            buffer.append(dump(value, callCount));
                        }
                    }
                } catch (IllegalAccessException e) {
                    buffer.append(e.getMessage());
                }
                buffer.append("\n");
            }
            oClass = oClass.getSuperclass();
        }
        buffer.append(tabs.toString());
        buffer.append("}\n");
    }
    return buffer.toString();
}
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3  
What should Callcount be set to? –  Tom Apr 29 '10 at 13:06
4  
I got a Exception in thread "AWT-EventQueue-0" java.lang.StackOverflowError when I ran this. –  Tom Apr 29 '10 at 13:13
    
@Tom callCount should be set to zero. It's value is used to determine how many tabs should precede each line of output: each time dump needs to dump a "subobject", the output would print as nested in the parent. That method proves useful when wrapped in another. Consider printDump(Object obj){ System.out.println(dump(obj, 0)); }. –  faraz Nov 23 '12 at 6:09
    
The java.lang.StackOverflowError might be created in case of circular references, because of the unchecked recursion: buffer.append(dump(value, callCount)) –  Arnaud P Jul 1 '13 at 23:03
1  
Can you specifically release your code to Public Domain, pretty please? –  stolsvik Oct 8 '13 at 10:06

Reflection is a key mechanism to allow an application or framework to work with code that might not have even been written yet!

Take for example your typical web.xml file. This will contain a list of servlet elements, which contain nested servlet-class elements. The servlet container will process the web.xml file, and create new a new instance of each servlet class through reflection.

Another example would be the Java API for XML Parsing (JAXP). Where an XML parser provider is 'plugged-in' via well-known system properties, which are used to construct new instances through reflection.

And finally, the most comprehensive example is Spring which uses reflection to create its beans, and for its heavy use of proxies

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From where can I find how to use spring to get reflection done? –  Bhathiya May 30 '12 at 16:13

Not every language supports reflection but the principles are usually the same in languages that support it.

Reflection is the ability to "reflect" on the structure of your program. Or more concrete. To look at the objects and classes you have and programmatically get back information on the methods, fields, and interfaces they implement. You can also look at things like annotations.

It's usefull in a lot of situations. Everywhere you want to be able to dynamically plug in classes into your code. Lot's of object relational mappers use reflection to be able to instantiate objects from databases without knowing in advance what objects they're going to use. Plug-in architectures is another place where reflection is usefull. Being able to dynamically load code and determine if there are types there that implement the right interface to use as a plugin is important in those situations.

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Reflection allows instantiation of new objects, invocation of methods, and get/set operations on class variables dynamically at run time without having prior knowledge of its implementation.

Class myObjectClass = MyObject.class;
Method[] method = myObjectClass.getMethods();

//Here the method takes a string parameter if there is no param, put null.
Method method = aClass.getMethod("method_name", String.class); 

Object returnValue = method.invoke(null, "parameter-value1");

In above example the null parameter is the object you want to invoke the method on. If the method is static you supply null. If the method is not static, then while invoking you need to supply a valid MyObject instance instead of null.

Reflection also allows you to access private member/methods of a class:

public class A{

  private String str= null;

  public A(String str) {
  this.str= str;
  }
}

.

A obj= new A("Some value");

Field privateStringField = A.class.getDeclaredField("privateString");

//Turn off access check for this field
privateStringField.setAccessible(true);

String fieldValue = (String) privateStringField.get(obj);
System.out.println("fieldValue = " + fieldValue);
  • For inspection of classes (also know as introspection) you don't need to import the reflection package (java.lang.reflect). Class metadata can be accessed through java.lang.Class.

Reflection is a very powerful API but it may slow down the application if used in excess, as it resolves all the types at runtime.

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Example :
Take for example a remote application which gives your application an object which you obtain using their API Methods . Now based on the object you might need to perform some sort of computation .
The provider guarantees that object can be of 3 types and we need to perform computation based on what type of object .
So we might implement in 3 classes each containing a different logic .Obviously the object information is available in runtime so you cannot statically code to perform computation hence reflection is used to instantiate the object of the class that you require to perform the computation based on the object received from the provider .

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As per my understanding:

Reflection allows programmer to access entities in program dynamically. i.e. while coding an application if programmer is unaware about a class or its methods, he can make use of such class dynamically (at run time) by using reflection.

It is frequently used in scenarios where a class name changes frequently. If such a situation arises, then it is complicated for the programmer to rewrite the application and change the name of the class again and again.

Instead, by using reflection, there is need to worry about a possibly changing class name.

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Reflection is a set of functions which allows you to access the runtime information of your program and modify it behavior (with some limitations).

It's useful because it allows you to change the runtime behaivour depending on the meta information of your program, that is, you can check the return type of a function and change the way you handle the situation.

In C# for example you can load an assembly (a .dll) in runtime an examine it, navigating through the classes and taking actions according to what you found. It also let you create an instance of a class on runtime, invoke its method, etc.

Where can it be useful? Is not useful everytime but for concrete situations. For example you can use it to get the name of the class for loggin purposes, to dinamically create handlers for events according to what's specified on a configuration file and so on...

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Uses of Reflection

Reflection is commonly used by programs which require the ability to examine or modify the runtime behavior of applications running in the Java virtual machine. This is a relatively advanced feature and should be used only by developers who have a strong grasp of the fundamentals of the language. With that caveat in mind, reflection is a powerful technique and can enable applications to perform operations which would otherwise be impossible.

Extensibility Features

An application may make use of external, user-defined classes by creating instances of extensibility objects using their fully-qualified names. Class Browsers and Visual Development Environments A class browser needs to be able to enumerate the members of classes. Visual development environments can benefit from making use of type information available in reflection to aid the developer in writing correct code. Debuggers and Test Tools Debuggers need to be able to examine private members on classes. Test harnesses can make use of reflection to systematically call a discoverable set APIs defined on a class, to insure a high level of code coverage in a test suite.

Drawbacks of Reflection

Reflection is powerful, but should not be used indiscriminately. If it is possible to perform an operation without using reflection, then it is preferable to avoid using it. The following concerns should be kept in mind when accessing code via reflection.

  • Performance Overhead

Because reflection involves types that are dynamically resolved, certain Java virtual machine optimizations can not be performed. Consequently, reflective operations have slower performance than their non-reflective counterparts, and should be avoided in sections of code which are called frequently in performance-sensitive applications.

  • Security Restrictions

Reflection requires a runtime permission which may not be present when running under a security manager. This is in an important consideration for code which has to run in a restricted security context, such as in an Applet.

  • Exposure of Internals

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

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Reflection has many uses. The one I am more familiar with, is to be able to create code on the fly

IE: dynamic classes, functions, constructors - based on any data (xml/array/sql results/hardcoded/etc..)

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Java Reflection is quite powerful and can be very useful. Java Reflection makes it possible to inspect classes, interfaces, fields and methods at runtime, without knowing the names of the classes, methods etc. at compile time. It is also possible to instantiate new objects, invoke methods and get/set field values using reflection.

A quick Java Reflection example to show you what using reflection looks like:

Method[] methods = MyObject.class.getMethods();

    for(Method method : methods){
        System.out.println("method = " + method.getName());
    }

This example obtains the Class object from the class called MyObject. Using the class object the example gets a list of the methods in that class, iterates the methods and print out their names.

Exactly how all this works is explained here

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I just want to add some point to all that was listed.

With Reflection API you can write universal toString() method for any object.

It is useful at debugging.

Here is some example:

class ObjectAnalyzer {

   private ArrayList<Object> visited = new ArrayList<Object>();

   /**
    * Converts an object to a string representation that lists all fields.
    * @param obj an object
    * @return a string with the object's class name and all field names and
    * values
    */
   public String toString(Object obj) {
      if (obj == null) return "null";
      if (visited.contains(obj)) return "...";
      visited.add(obj);
      Class cl = obj.getClass();
      if (cl == String.class) return (String) obj;
      if (cl.isArray()) {
         String r = cl.getComponentType() + "[]{";
         for (int i = 0; i < Array.getLength(obj); i++) {
            if (i > 0) r += ",";
            Object val = Array.get(obj, i);
            if (cl.getComponentType().isPrimitive()) r += val;
            else r += toString(val);
         }
         return r + "}";
      }

      String r = cl.getName();
      // inspect the fields of this class and all superclasses
      do {
         r += "[";
         Field[] fields = cl.getDeclaredFields();
         AccessibleObject.setAccessible(fields, true);
         // get the names and values of all fields
         for (Field f : fields) {
            if (!Modifier.isStatic(f.getModifiers())) {
               if (!r.endsWith("[")) r += ",";
               r += f.getName() + "=";
               try {
                  Class t = f.getType();
                  Object val = f.get(obj);
                  if (t.isPrimitive()) r += val;
                  else r += toString(val);
               } catch (Exception e) {
                  e.printStackTrace();
               }
            }
         }
         r += "]";
         cl = cl.getSuperclass();
      } while (cl != null);

      return r;
   }    
}
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simple example for reflection. In a Chess Game, you do not know what will be moved by the user at run time. reflection can be used to call methods which are already implemented at run time.

public class Test {

	public void firstMoveChoice(){
		System.out.println("First Move");
	} 
	public void secondMOveChoice(){
		System.out.println("Second Move");
	}
	public void thirdMoveChoice(){
		System.out.println("Third Move");
	}
	
	public static void main(String[] args) throws IllegalAccessException, IllegalArgumentException, InvocationTargetException { 
		Test test = new Test();
		Method[] method = test.getClass().getMethods();
		//firstMoveChoice
		method[0].invoke(test, null);
		//secondMoveChoice
		method[1].invoke(test, null);
		//thirdMoveChoice
		method[2].invoke(test, null);
	}
	
}

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Java Reflection makes it possible to inspect classes, interfaces, fields and methods at runtime, without knowing the names of the classes, methods etc. at compile time. Mostly at framework level the maximum benefits of reflection can be achieved. The byte code that is compiled if needs extra modification at run time for examination, modification, addition of more byte code within itself, or another program or another framework at method level, instance variable level, constructor level, annotation level reflection can be useful.

Suppose you have a method add(Int a,int b). The equivalent byte code is suppose B1. If suppose you have 1000 methods named add in your system. Now you want to check the value of parameter a and b before method add is called. So, you can glue your code to another program or framework that uses reflection to dynamically examine the byte code value using Object.getClass.getMethod(). There are several classes for examining. It can add more operation before method add is called. But, the program itself or another program or framework does not know about the object that has a method named add. Mostly in dependency injection, aspect oriented programming use of reflection is mostly used.

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6  
-1 reflection does nothing with the manipulation, modification, nor generation of bytecode. –  Nox Feb 18 '13 at 20:11

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