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What is the difference between early and late binding?

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Late and early binding –  J.F. Sebastian Oct 26 '08 at 12:19
    
Would I be wrong to say early = direct function call while late = call to function through a function pointer? It never ceases to amaze me how programmers have a way of taking simple concepts and making them seem way more complex than they are (as a show of intelligence?). Programming is inherently a very easy field of study until you get down to things like how a float type is made or the development of compilers. –  Bob Blogge Jul 18 '13 at 16:53

6 Answers 6

up vote 22 down vote accepted

The short answer is that early (or static) binding refers to compile time binding and late (or dynamic) binding refers to runtime binding (for example when you use reflection).

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3  
But the wikipedia article on late binding (en.wikipedia.org/wiki/Late_binding) says that "Late binding is often confused with dynamic dispatch, but there are significant differences". So are they the same or not? If they are the same, then that wikipedia page needs to be changed. –  Alexander Bird Mar 1 '11 at 21:15

In compiled languages, the difference is stark.

Java:

//early binding:
public create_a_foo(*args) {
 return new Foo(args)
}
my_foo = create_a_foo();

//late binding:
public create_something(Class klass, *args) {
  klass.new_instance(args)
}
my_foo = create_something(Foo);

In the first example, the compiler can do all sorts of neat stuff at compile time. In the second, you just have to hope that whoever uses the method does so responsibly. (Of course, newer JVMs support the Class<? extends Foo> klass structure, which can greatly reduce this risk.)

Another benefit is that IDEs can hotlink to the class definition, since it's declared right there in the method. The call to createsomething(Foo) might be _very far from the method definition, and if you're looking at the method definition, it might be nice to see the implementation.

The major advantage of late binding is that it makes things like inversion-of-control easier, as well as certain other uses of polymorphism and duck-typing (if your language supports such things).

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Taken directly from http://word.mvps.org/fAQs/InterDev/EarlyvsLateBinding.htm

There are two ways to use Automation (or OLE Automation) to programmatically control another application.

Late binding uses CreateObject to create and instance of the application object, which you can then control. For example, to create a new instance of Excel using late binding:

 Dim oXL As Object
 Set oXL = CreateObject("Excel.Application")

On the other hand, to manipulate an existing instance of Excel (if Excel is already open) you would use GetObject (regardless whether you're using early or late binding):

 Dim oXL As Object
 Set oXL = GetObject(, "Excel.Application")

To use early binding, you first need to set a reference in your project to the application you want to manipulate. In the VB Editor of any Office application, or in VB itself, you do this by selecting Tools + References, and selecting the application you want from the list (e.g. “Microsoft Excel 8.0 Object Library”).

To create a new instance of Excel using early binding:

 Dim oXL As Excel.Application
 Set oXL = New Excel.Application

In either case, incidentally, you can first try to get an existing instance of Excel, and if that returns an error, you can create a new instance in your error handler.

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I know this reply is old, and it's sourced from somewhere else, but it's not accurate. Late binding implies use of CreateObject, but CreateObject does not necessarily imply late binding. Binding does not apply to the method of instantiating an object, only to how it is declared. If you declare your object "As Excel.Application" it doesn't matter how you instantiate it. I always use CreateObject to instantiate object references to external libraries, that way I can switch between early and late binding and only have to switch one line (not two) -- the line that declares the object. –  JimmyPena Oct 14 '11 at 18:24

In interpreted languages, the difference is a little more subtle.

Ruby:

# early binding:
def create_a_foo(*args)
  Foo.new(*args)
end
my_foo = create_a_foo

# late binding:
def create_something(klass, *args)
  klass.new(*args)
end
my_foo = create_something(Foo)

Because Ruby is (generally) not compiled, there isn't a compiler to do the nifty up-front stuff. The growth of JRuby means that more Ruby is compiled these days, though, making it act more like Java, above.

The issue with IDEs still stands: a platform like Eclipse can look up class definitions if you hard-code them, but cannot if you leave them up to the caller.

Inversion-of-control is not terribly popular in Ruby, probably because of its extreme runtime flexibility, but Rails makes great use of late binding to reduce the amount of configuration necessary to get your application going.

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From Dependency Injection in .NET by Mark Seemann:

[...] late binding refers to the ability to replace parts of an application without
recompiling the code. An application that enables third-party add-ins (such as
Visual Studio) is one example.

Another example is standard software that supports different runtime environments.
You may have an application that can run on more than one database engine:
for example, one that supports both Oracle and SQL Server. To support this feature,
the rest of the application can talk to the database through an interface. The code
base can provide different implementations of this interface to provide access to Oracle
and SQL Server, respectively. A configuration option can be used to control which
implementation should be used for a given installation.
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Late binding, or dynamic binding, is a computer programming mechanism in which the method being called upon an object is looked up by name at runtime.

With early binding, or static binding, the compilation phase fixes all types of variables and expressions. This is usually stored in the compiled program as an offset in a virtual method table ("v-table") and is very efficient. With late binding the compiler does not have enough information to verify the method even exists, let alone bind to its particular slot on the v-table. Instead the method is looked up by name at runtime.

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