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What is a framework? What does it do? Why do we need a framework
What is the difference between a class library and a framework
Although I referred to various sources, I still can't understand the proper definition. What is meant by "application framework"?
Here's a simpler answer:
Application frameworks make writing applications easier.
Creating applications is hard. Applications have to provide input and output which they get through operating system semantics. Modern applications are usually GUI based and a GUI app is orders of magnitude more complex than a non-GUI app.
It's that simple. The framework takes all the complexities of interfacing with the operating system and simplifies them for you. It handles all the nitty-gritty details for you. Obviously certain frameworks do a better job at it than others.
There is one drawback to using an application framework that rarely seems to be discussed (presumably because we are all smiling about the amount of work we didn't have to do). In order to provide a simplified view of the operating environment, a framework has to box you into a certain 'style'. If your app is sufficiently different from the usual form of app, you are likely to end up frustrated in the framework as it will make doing what you want very difficult. This is partly because you now have to do all the things that the framework was hiding from you and partly because the framework is probably a closed system.
Frameworks are a special case of software libraries in that they are
reusable abstractions of code wrapped
in a well-defined Application
programming interface (API), yet they
contain some key distinguishing
features that separate them from
normal libraries.
An application framework consists of a framework used by software developers to implement the standard structure of an application for a specific development environment
Wikipedia answers, as you might expect, that an application framework is a framework for developing applications.
An application typically provides a user interface. "Application framework" can be used loosely to refer to user-interface frameworks that provide little more than a collection of low-level user-interface controls -- like MFC, Swing, Qt and the like.
However, it is useful to distinguish these from more powerful frameworks like the Eclipse Rich-Client Platform and the Netbeans Platform, which provide a higher-level framework -- built atop those low-level toolkits -- on which to develop applications.
I personally use "application platform" only for these latter platforms, and refer to the low-level APIs as "user-interface toolkits."
I was trying to find an answer for my question today using google and StackOverflow search engines... but no luck :)
I was wondering what are the key features of every framework for end user, and how can you characterize every framework from the end-user point of view (I've looked into Framework Design Guidelines by K. Cwalina, but I've found only concepts and guidelines for framework architects), for me:
it should be extensible
should let build extensible and reusable components
and of course : Simple things should be simple, complex things should be possible. (http://en.wikiquote.org/wiki/Alan_Kay)
I think there is much more out there.
Please share your knowledge.
Here are two good quotes from Ralph Johnson and Brian Foote
A framework is a reusable, ``semi-complete'' application that can be specialized to produce custom applications
One important characteristic of a framework is that the methods defined by the user to tailor the framework will often be called from within the framework itself, rather than from the user's application code. The framework often plays the role of the main program in coordinating and sequencing application activity. This inversion of control gives frameworks the power to serve as extensible skeletons. The methods supplied by the user tailor the generic algorithms defined in the framework for a particular application.
There was a special issue of CACM that you might want to take a look at too.
Here's one more link The Hollywood Principal. "Don't call us, we'll call you." About how the framework inverts the typical control so the framework calls your code instead of you calling some library code.
It sounds like you just want to know what is the defining characteristic of a framework...?
From FOLDOC:
In object-oriented systems, a set of classes that embodies an abstract design for solutions to a number of related problems.
So basically, a class library ("set of classes") that's extensible ("embodies an abstract design"),
I'll attempt a definition based on my own understanding: A framework is a body of code that abstracts a subset of tasks common to some classes of application programs. The intent is to provide, once, proven and tested code so that application programming doesn't have to keep re-inventing code for the common tasks handled by the framework.
In real life, frameworks often spring into being when a programmer or team get carried away with generalizing and future-proofing what started out as a single application. There's an honorable intent to start code re-use, but it often turns out that such frameworks aren't designed with intent from the beginning, don't have consistent design reflecting this intent, and are actually lousy code that ends up not being re-used at all. Most architects who feel qualified to create frameworks, aren't.
The difference between libraries and frameworks: You call libraries. Frameworks call you.
Answering your question covering the depth it deserves is beyond the scope of this forum. All you should do is read this book though its focused on .Net frmaework specifically and written by the designers of the .Net framework, I'm sure the wisdom and information that this book provides would be sufficient to answer your question and satisfy your curiosities on the subject.
Framework Design Guidelines: Conventions, Idioms, and Patterns for Reusable .NET Libraries (2nd Edition)
alt text http://www.lybrary.com/images/0321605012.jpg
A Framework is for me a other name for a Library (like Boost and many others) that is not about only one Topic (there are Librarys about Math, Networking, whatever out there, but these are no Frameworks) and it is of course Extensible and you can combine the Features of it to do your Job.
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Can someone please explain me what a software framework is? Why do we need a framework? What does a framework do to make programming easier?
I'm very late to answer it. But, I would like to share one example, which I only thought of today. If I told you to cut a piece of paper with dimensions 5m by 5m, then surely you would do that. But suppose I ask you to cut 1000 pieces of paper of the same dimensions. In this case, you won't do the measuring 1000 times; obviously, you would make a frame of 5m by 5m, and then with the help of it you would be able to cut 1000 pieces of paper in less time. So, what you did was make a framework which would do a specific type of task. Instead of performing the same type of task again and again for the same type of applications, you create a framework having all those facilities together in one nice packet, hence providing the abstraction for your application and more importantly many applications.
Technically, you don't need a framework. If you're making a really really simple site (think of the web back in 1992), you can just do it all with hard-coded HTML and some CSS.
And if you want to make a modern webapp, you don't actually need to use a framework for that, either.
You can instead choose to write all of the logic you need yourself, every time.
You can write your own data-persistence/storage layer, or - if you're too busy - just write custom SQL for every single database access.
You can write your own authentication and session handling layers.
And your own template rending logic.
And your own exception-handling logic.
And your own security functions.
And your own unit test framework to make sure it all works fine.
And your own... [goes on for quite a long time]
Then again, if you do use a framework, you'll be able to benefit from the good, usually peer-reviewed and very well tested work of dozens if not hundreds of other developers, who may well be better than you. You'll get to build what you want rapidly, without having to spend time building or worrying too much about the infrastructure items listed above.
You can get more done in less time, and know that the framework code you're using or extending is very likely to be done better than you doing it all yourself.
And the cost of this? Investing some time learning the framework. But - as virtually every web dev out there will attest - it's definitely worth the time spent learning to get massive (really, massive) benefits from using whatever framework you choose.
The summary at Wikipedia (Software Framework) (first google hit btw) explains it quite well:
A software framework, in computer programming, is an abstraction in which common code providing generic functionality can be selectively overridden or specialized by user code providing specific functionality. Frameworks are a special case of software libraries in that they are reusable abstractions of code wrapped in a well-defined Application programming interface (API), yet they contain some key distinguishing features that separate them from normal libraries.
Software frameworks have these distinguishing features that separate them from libraries or normal user applications:
inversion of control - In a framework, unlike in libraries or normal user applications, the overall program's flow of control is not dictated by the caller, but by the framework.[1]
default behavior - A framework has a default behavior. This default behavior must actually be some useful behavior and not a series of no-ops.
extensibility - A framework can be extended by the user usually by selective overriding or specialized by user code providing specific functionality.
non-modifiable framework code - The framework code, in general, is not allowed to be modified. Users can extend the framework, but not modify its code.
You may "need" it because it may provide you with a great shortcut when developing applications, since it contains lots of already written and tested functionality. The reason is quite similar to the reason we use software libraries.
A lot of good answers already, but let me see if I can give you another viewpoint.
Simplifying things by quite a bit, you can view a framework as an application that is complete except for the actual functionality. You plug in the functionality and PRESTO! you have an application.
Consider, say, a GUI framework. The framework contains everything you need to make an application. Indeed you can often trivially make a minimal application with very few lines of source that does absolutely nothing -- but it does give you window management, sub-window management, menus, button bars, etc. That's the framework side of things. By adding your application functionality and "plugging it in" to the right places in the framework you turn this empty app that does nothing more than window management, etc. into a real, full-blown application.
There are similar types of frameworks for web apps, for server-side apps, etc. In each case the framework provides the bulk of the tedious, repetitive code (hopefully) while you provide the actual problem domain functionality. (This is the ideal. In reality, of course, the success of the framework is highly variable.)
I stress again that this is the simplified view of what a framework is. I'm not using scary terms like "Inversion of Control" and the like although most frameworks have such scary concepts built-in. Since you're a beginner, I thought I'd spare you the jargon and go with an easy simile.
I'm not sure there's a clear-cut definition of "framework". Sometimes a large set of libraries is called a framework, but I think the typical use of the word is closer to the definition aioobe brought.
This very nice article sums up the difference between just a set of libraries and a framework:
A framework can be defined as a set of libraries that say “Don’t call us, we’ll call you.”
How does a framework help you? Because instead of writing something from scratch, you basically just extend a given, working application. You get a lot of productivity this way - sometimes the resulting application can be far more elaborate than you could have done on your own in the same time frame - but you usually trade in a lot of flexibility.
A simple explanation is: A framework is a scaffold that you can you build applications around.
A framework generally provides some base functionality which you can use and extend to make more complex applications from, there are frameworks for all sorts of things. Microsofts MVC framework is a good example of this. It provides everything you need to get off the ground building website using the MVC pattern, it handles web requests, routes and the like. All you have to do is implement "Controllers" and provide "Views" which are two constructs defined by the MVC framework. The MVC framework then handles calling your controllers and rendering your views.
Perhaps not the best wording but I hope it helps
at the lowest level, a framework is an environment, where you are given a set of tools to work with
this tools come in the form of libraries, configuration files, etc.
this so-called "environment" provides you with the basic setup (error reportings, log files, language settings, etc)...which can be modified,extended and built upon.
People actually do not need frameworks, it's just a matter of wanting to save time, and others just a matter of personal preferences.
People will justify that with a framework, you don't have to code from scratch. But those are just people confusing libraries with frameworks.
I'm not being biased here, I am actually using a framework right now.
In General, A frame Work is real or Conceptual structure of intended to serve as a support or Guide for the building some thing that expands the structure into something useful...
A framework provides functionalities/solution to the particular problem area.
Definition from wiki:
A software framework, in computer
programming, is an abstraction in
which common code providing generic
functionality can be selectively
overridden or specialized by user code
providing specific functionality.
Frameworks are a special case of
software libraries in that they are
reusable abstractions of code wrapped
in a well-defined Application
programming interface (API), yet they
contain some key distinguishing
features that separate them from
normal libraries.
A framework helps us about using the "already created", a metaphore can be like,
think that earth material is the programming language,
and for example "a camera" is the program, and you decided to create a notebook. You don't need to recreate the camera everytime, you just use the earth framework (for example to a technology store) take the camera and integrate it to your notebook.
A framework has some functions that you may need. you maybe need some sort of arrays that have inbuilt sorting mechanisms. Or maybe you need a window where you want to place some controls, all that you can find in a framework. it's a kind of WORK that spans a FRAME around your own work.
EDIT:
OK I m about to dig what you guys were trying to tell me ;) you perhaps havent noticed the information between the lines "WORK that spans a FRAME around ..."
before this is getting fallen deeper n deeper. I try to give a floor to it hoping you're gracfully:
a good explanation to the question "Difference between a Library and a Framework" I found here
http://ifacethoughts.net/2007/06/04/difference-between-a-library-and-a-framework/
Beyond definitions, which are sometimes understandable only if you already understand, an example helped me.
I think I got a glimmer of understanding when loooking at sorting a list in .Net; an example of a framework providing a functionality that's tailored by user code providing specific functionality. Take List.Sort(IComparer). The sort algorithm, which resides in the .Net framework in the Sort method, needs to do a series of compares; does object A come before or after object B? But Sort itself has no clue how to do the compare; only the type being sorted knows that. You couldn't write a comparison sort algorithm that can be reused by many users and anticipate all the various types you'd be called upon to sort. You've got to leave that bit of work up to the user itself. So here, sort, aka the framework, calls back to a method in the user code, the type being sorted so it can do the compare. (Or a delegate can be used; same point.)
Did I get this right?
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Summary:
Can I program a "thick
client" game in C without reinventing
wheels, or should I just bite the
bullet and use some library or SDK?
I'm a moderate C programmer and am not
afraid to work with pointers, data
structures, memory locations, etc. if
it will give me the control I need to
make a great "thick-client" game.
However, I'm thinking of eschewing
high-level languages & frameworks for
the sake of power and control, not
ease of use.
I'm interesting in tinkering with a 2D fighting/platforming game as a side project sometime. I'm primarily a Linux server-side programmer with experience in Python, Ruby and PHP. I know that there are excellent frameworks in some of these languages, like PyGame. I am also aware of the success people have had with stuff like Air and .NET... but I have some concerns:
Performance: Scripting languages are notoriously slow. If I'm making a real-time game, I want it to be as snappy as possible.
Huge binaries: Using frameworks like .NET or scripting languages like Ruby often result in big CLRs or libraries that you wouldn't otherwise need. The game I want to make will be small and simple--I don't want its CLR to be bigger than the game itself!
Extra stuff: Honestly, I just don't like the idea of inheriting some big game library's baggage if I can wrap my head around my own code better.
I'm asking this question because I know I'm very susceptible to Not Invented Here Syndrome. I always want to program it myself, and I'm sure it wastes a lot of time. However, this works out for me remarkably often--for example, instead of using Rails (a very big web project framework with an ORM and GUI toolkit baked in), I used an array of smaller Ruby tools like rack and sequel that fit together beautifully.
So, I turn to you, SO experts. Am I being naive? Here's how I see it:
Use C
Cons
Will probably make me hate programming
High risk of reinventing wheels
High risk of it taking so long that I lose interest
Pros
Tried & true - most A-list games are done in C (is this still true today?)
High level of control over memory management, speed, asset management, etc., which I trust myself to learn to handle
No cruft
Use framework or SDK
Cons
Risk of oversized deliverable
Dependent on original library authors for all facets of game development--what if there isn't a feature I want? I'll have to program it myself, which isn't bad, but partially defeats the purpose of using a high-level framework in the first place
High risk of performance issues
Pros
MUCH faster development time
Might be easier to maintain
No time wasted reinventing common paradigms
What else can I add to this list? Is it a pure judgment call, or can someone seal the deal for me? Book suggestions welcome.
I believe you are working under a fallacy.
There are several frameworks out there specifically for game programming --- written by people with much experience with the complication of game design, almost certainly more tha you do.
In other words, you have a "High risk of performance issues" if you DON'T use a framework.
My current thinking is:
If you want to learn to program, start making the game engine from the base elements upwards (even implementing basic data structures - lists, maps, etc). I've done this once, and while it was a learning experience, I made many mistakes, and I wouldn't do this a second time around. However for learning how to program as well as making something cool and seeing results I'd rate this highly.
If you want to make a proper game, use whatever libraries that you want and design all of the game infrastructure yourself. This is what I'm doing now, and I'm using all of the nice things like STL, ATL/WTL, Boost, SQLite, DirectX, etc. So far I've learnt a lot about the middle/game logic aspect of the code and design.
If you just want to make a game with artists and other people collaborating to create a finished product, use one of the existing engines (OGRE, Irrlicht, Nebula, Torque, etc) and just add in your game logic and art.
One final bit of wisdom I've learnt is that don't worry about the Not Invented Here syndrome. As I've come to realise that other libraries (such as STL, Boost, DirectX, etc) have an order of magnitude (or three) more man-hours of development time in them, far more than I could ever spend on that portion of the game/engine. Therefore the only reason to implement these things yourself is if you want to learn about them.
I would recomend you try pyglet.
It has good performance, as it utilizes opengl
Its a compact all-in-one library
It has no extra dependencies besides python
Do some tests, see if you can make it fast enough for you. Only if you prove to yourself that it's not move to a lower level. Although, I'm fairly confident that python + pyglet can handle it... at worst you'll have to write a few C extensions.
Today, I believe you are at a point where you can safely ignore the performance issue unless you're specifically trying to do something that pushes the limits. If your game is, say, no more complicated than Quake II, then you should choose tools and libraries that let you do the most for your time.
Why did I choose Quake II? Because running in a version compiled for .NET, it runs with a software renderer at a more than acceptable frame rate on a current machine. (If you like - compare MAME which emulates multiple processors and graphics hardware at acceptable rates)
You need to ask yourself if you are in this to build an engine or to build a game. If your purpose is to create a game, you should definitely look at an established gaming engine. For 2D game development, look at Torque Game Builder. It is a very powerful 2D gaming engine/SDK that will put you into production from day 1. They have plenty of tools that integrate with it, content packs, and you get the full source code if you want to make changes and/or learn how it works. It is also Mac OSX compatible and has Linux versions in the community.
If you are looking for something on the console side, they have that too.
I'm surprised nobody has mentioned XNA. Its a framework built around DirectX for doing managed DirectX programming while removing a lot of the fluff and verbosity of lower level DirectX programming.
Performance-wise, for most 2D and 3D game tasks, especially building something like a fighting game, this platform works very well. Its not as fast as if you were doing bare metal DirectX programming, but it gets you very close, and in a managed environment, no less.
Another cool benefit of XNA is that most of the code can be run on an Xbox 360 and can even be debugged over the network connection was the game runs on the Xbox. XNA games are now allowed to be approved by the Xbox Live team for distribution and sale on Xbox Live Arcade as well. So if you're looking to take the project to a commercial state, you might have am available means of distribution at your disposal.
Like all MS development tools, the documentation and support is first rate, and there is a large developer community with plenty of tutorials, existing projects, etc.
Do you want to be able to play your game on a console? Do you want to do it as a learning experience? Do you want the final product to be cross platform? Which libraries have you looked into so far?
For a 2d game I don't think performance will be a problem, I recommend going with something that will get you results on screen in the shortest amount of time. If you have a lot of experience doing Python then pyGame is a good choice.
If you plan on doing some 3d games in the future, I would recommend taking a look at Ogre (http://www.ogre3d.org). It's a cross platform 3d graphics engine that abstracts away the graphics APIs. However for a 2d project it's probably overkill.
The most common implementation language for A-list games today is C++, and a lot of games embed a scripting language (such as Python or Lua) for game event scripting.
The tools you'd use to write a game have a lot to do with your reasons for writing it, and with your requirements. This is no different from any other programming project, really. If it's a side project, and you're doing it on your own, then only you can assess how much time you have to spend on this and what your performance requirements are.
Generally speaking, today's PCs are fast enough to run 2D platformers written in scripting languages. Using a scripting language will allow you to prototype things faster and you'll have more time to tweak the gameplay. Again, this is no different than with any other project.
If you go with C++, and your reasons don't have to be more elaborate than "because I want to," I would suggest that you look at SDL for rendering and audio support. It will make things a little bit easier.
If you want to learn the underlying technologies (DirectX, or you want to write optimized blitters for some perverse reason) then by all means, use C++.
Having said all that, I would caution you against premature optimization. For a 2D game, you'll probably be better off going with Python and PyGame first. I'd be surprised if those tools will prove to be inadequate on modern PCs.
As to what people have said about C/C++/Python, I'm a game developer and my company encourages C. Not b/c C++ is bad, but because badly written C++ is poison for game development due to it's difficulty to read/debug compared to C. (C++ gives benefits when used properly, but let a junior guy make some mistakes with it and your time sink is huge)
As to the actual question:
If your purpose is to just get something working, use a library.
Otherwise, code it yourself for a very important reason: Practice
Practice in manipulating data structures. There WILL be times you need to manage your own data. Practice in debugging utility code.
Often libs do just what you want and are great, but sometimes YOUR specific use case is handled very badly by the lib and you will gain big benefits from writing you own. This is especially on consoles compared to PCs
(edit:) Regarding script and garbage collection: it will kill you on a console, on a recent game I had to rewrite major portions of the garbage collection on Unreal just to fill our needs in the editor portion. Even more had to be done in the actual game (not just by me) (to be fair though we were pushing beyond Unreal's original specs)
Scripting often good, but it is not an "I win" button. In general the gains disappear if you are pushing against the limits of your platform. I would use "percent of platforms CPU that I have to spare" as my evaluation function in deciding how appropriate script is
One consideration in favor of C/C++/obj-C is that you can mix and match various libraries for different areas of concern. In other words, you are not stuck with the implementation of a feature in a framework.
I use this approach in my games; using chipmunk for 2D physics, Lua as an embedded scripting language, and an openGL ES implementation from Apple. I write the glue to tie all of these together in a C language. The final product being the ability to define game objects, create instances of them, and handle events as they interact with each other in C functions exposed to Lua. This approach is used in many high performance games to much success.
If you don't already know C++, I would definitely recommend you go forward with a scripting language. Making a game from start to finish takes a lot of motivation, and forcing yourself to learn a new language at the same time is a good way to make things go slowly enough that you lose interest (although it IS a good way to learn a new language...).
Most scripting languages will be compiled to byte code anyway, so their biggest performance hit will be the garbage collection. I'm not experienced enough to give a definite description of how big a hit garbage collection would be, but I would be inclined to think that it shouldn't be too bad in a small game.
Also, if you use an existing scripting language library to make your game, most of the performance critical areas (like graphics) can be written in C++ anyway (hopefully by the game libraries). So 80% of the CPU might actually be spent in C++ code anyway, despite the fact that most of your project is written in, say Python.
I would say, ask yourself what you want more: To write a game from start to finish and learn about game development, or to learn a new language (C++). If you want to write a game, do it in a scripting language. If you want to learn a new language, do it in C++.
Yeah unless you just want to learn all of the details of the things that go into making a game, you definitely want to go with a game engine and just focus on building your game logic rather than the details of graphics, audio, resource management, etc.
Personally I like to recommend the Torque Game Builder (aka Torque 2D) from GarageGames. But you can probably find some free game engines out there that will suit your needs as well.
I'm pretty sure most modern games are done in C++, not C. (Every gaming company I ever interviewed with asked C++ questions.)
Why not use C++ and existing libraries for physics + collisions, sound, graphics engine etc. You still write the game, but the mundane stuff is taken care of.
There are alot of different solutions to the issue of abstracting and each deals with it in different ways.
My current project uses C#, DirectX 9, HLSL and SlimDX. Each of these offers a carefully calibrated level of abstraction. HLSL allows me to actually read the shader code I'm writing and SlimDX/C# allows me to ignore pointers, circular dependencies and handling unmanaged code.
That said, none of these technologies has any impact on the ease of developing my AI, lighting or physics! I still have to break out my textbooks in a way that I wouldn't with a higher-level framework.
Even using a framework like XNA, if most video games development concepts are foreign to you there's a hell of a lot still to take in and learn. XNA will allow you to neatly sidestep gimbal lock, but woe betide those who don't understand basic shading concepts. On the other hand, something like DarkBASIC won't solve your gimbal lock problem, but shading is mostly handled for you.
It's a sufficiently big field that your first engine will never be the one you actually use. If you write it yourself, you won't write it well enough. If you use third party libraries, there's certainly aspects that will annoy you and you'll want to replace.
As an idea, it might be worth taking various libraries/frameworks (definately make XNA one of your stops, even if you decide you don't want to use it, it's a great benchmark) and trying to build various prototypes. Perhaps a landscape (with a body of water) or a space physics demo.
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What is the difference between a framework and a library?
I always thought of a library as a set of objects and functions that focuses on solving a particular problem or a specific area of application development (i.e. database access); and a framework on the other hand as a collection of libraries centered on a particular methodology (i.e. MVC) and which covers all areas of application development.
A library performs specific, well-defined operations.
A framework is a skeleton where the application defines the "meat" of the operation by filling out the skeleton. The skeleton still has code to link up the parts but the most important work is done by the application.
Examples of libraries: Network protocols, compression, image manipulation, string utilities, regular expression evaluation, math. Operations are self-contained.
Examples of frameworks: Web application system, Plug-in manager, GUI system. The framework defines the concept but the application defines the fundamental functionality that end-users care about.
Actually these terms can mean a lot of different things depending the context they are used.
For example, on Mac OS X frameworks are just libraries, packed into a bundle. Within the bundle you will find an actual dynamic library (libWhatever.dylib). The difference between a bare library and the framework on Mac is that a framework can contain multiple different versions of the library. It can contain extra resources (images, localized strings, XML data files, UI objects, etc.) and unless the framework is released to public, it usually contains the necessary .h files you need to use the library.
Thus you have everything within a single package you need to use the library in your application (a C/C++/Objective-C library without .h files is pretty useless, unless you write them yourself according to some library documentation), instead of a bunch of files to move around (a Mac bundle is just a directory on the Unix level, but the UI treats it like a single file, pretty much like you have JAR files in Java and when you click it, you usually don't see what's inside, unless you explicitly select to show the content).
Wikipedia calls framework a "buzzword". It defines a software framework as
A software framework is a re-usable
design for a software system (or
subsystem). A software framework may
include support programs, code
libraries, a scripting language, or
other software to help develop and
glue together the different components
of a software project. Various parts
of the framework may be exposed
through an API..
So I'd say a library is just that, "a library". It is a collection of objects/functions/methods (depending on your language) and your application "links" against it and thus can use the objects/functions/methods. It is basically a file containing re-usable code that can usually be shared among multiple applications (you don't have to write the same code over and over again).
A framework can be everything you use in application development. It can be a library, a collection of many libraries, a collection of scripts, or any piece of software you need to create your application. Framework is just a very vague term.
Here's an article about some guy regarding the topic "Library vs. Framework". I personally think this article is highly arguable. It's not wrong what he's saying there, however, he's just picking out one of the multiple definitions of framework and compares that to the classic definition of library. E.g. he says you need a framework for sub-classing. Really? I can have an object defined in a library, I can link against it, and sub-class it in my code. I don't see how I need a "framework" for that. In some way he rather explains how the term framework is used nowadays. It's just a hyped word, as I said before. Some companies release just a normal library (in any sense of a classical library) and call it a "framework" because it sounds more fancy.
I think that the main difference is that frameworks follow the "Hollywood principle", i.e. "don't call us, we'll call you."
According to Martin Fowler:
A library is essentially a set of
functions that you can call, these
days usually organized into classes.
Each call does some work and returns
control to the client.
A framework embodies some abstract
design, with more behavior built in.
In order to use it you need to insert
your behavior into various places in
the framework either by subclassing or
by plugging in your own classes. The
framework's code then calls your code
at these points.
Library:
It is just a collection of routines (functional programming) or class definitions(object oriented programming). The reason behind is simply code reuse, i.e. get the code that has already been written by other developers. The classes or routines normally define specific operations in a domain specific area. For example, there are some libraries of mathematics which can let developer just call the function without redo the implementation of how an algorithm works.
Framework:
In framework, all the control flow is already there, and there are a bunch of predefined white spots that we should fill out with our code. A framework is normally more complex. It defines a skeleton where the application defines its own features to fill out the skeleton. In this way, your code will be called by the framework when appropriately. The benefit is that developers do not need to worry about if a design is good or not, but just about implementing domain specific functions.
Library,Framework and your Code image representation:
KeyDifference:
The key difference between a library and a framework is “Inversion of Control”. When you call a method from a library, you are in control. But with a framework, the control is inverted: the framework calls you. Source.
Relation:
Both of them defined API, which is used for programmers to use. To put those together, we can think of a library as a certain function of an application, a framework as the skeleton of the application, and an API is connector to put those together. A typical development process normally starts with a framework, and fill out functions defined in libraries through API.
As I've always described it:
A Library is a tool.
A Framework is a way of life.
A library you can use whatever tiny part helps you. A Framework you must commit your entire project to.
From Web developer perspective:
Library can be easily replaceable by another library. But framework cannot.
If you don't like jquery date picker library, you can replace with other date picker such as bootstrap date picker or pickadate.
If you don't like AngularJS on which you built your product, you cannot just replace with any other frameworks. You have to rewrite your entire code base.
Mostly library takes very less learning curve compared to Frameworks. Eg: underscore.js is a library, Ember.js is a framework.
I like Cohens answer, but a more technical definition is: Your code calls a library. A framework calls your code. For example a GUI framework calls your code through event-handlers. A web framework calls your code through some request-response model.
This is also called inversion of control - suddenly the framework decides when and how to execute you code rather than the other way around as with libraries. This means that a framework also have a much larger impact on how you have to structure your code.
I forget where I saw this definition, but I think it's pretty nice.
A library is a module that you call from your code, and a framework is a module which calls your code.
A framework can be made out of different libraries. Let's take an example.
Let's say you want to cook a fish curry. Then you need ingredients like oil, spices and other utilities. You also need fish which is your base to prepare your dish on (This is data of your application). all ingredients together called a framework. Now you gonna use them one by one or in combination to make your fish curry which is your final product. Compare that with a web framework which is made out of underscore.js, bootstrap.css, bootstrap.js, fontawesome, AngularJS etc. For an example, Twitter Bootstrap v.35.
Now, if you consider only one ingredient, like say oil. You can't use any oil you want because then it will ruin your fish (data). You can only use Olive Oil. Compare that with underscore.js. Now what brand of oil you want to use is up to you. Some dish was made with American Olive Oil (underscore.js) or Indian Olive Oil (lodash.js). This will only change the taste of your application. Since they serve almost the same purpose, their use depends on the developer's preference and they are easily replaceable.
Framework: A collection of libraries that provide unique properties and behavior to your application. (All ingredients)
Library: A well-defined set of instructions that provide unique properties and behavior to your data. (Oil on Fish)
Plugin : A utility build for a library (ui-router -> AngularJS) or many libraries in combination (date-picker -> bootstrap.css + jQuery) without which your plugin might now work as expected.
P.S. AngularJS is an MVC framework but a JavaScript library. Because I believe Library extends default behavior of native technology (JavaScript in this case).
This is how I think of it (and have seen rationalized by others):
A library is something contained within your code. And a framework is a container for your application.
I will try to explain like you're five. ( No programming term was being used. )
Let's imagine that you had opened a burger restaurant in your city a while ago. But you feel it's so hard to make a burger as a beginner. You were thinking about an easy way to make burgers for customers.
Someone told you that If you use framework, you can make bugger easily. and you got to know that there are McDonald Burger Framework and BurgerKing Burger Framework.
If you use McDonald Burger Framework, It's so easy to make Big Mac burger. (but you cannot make Whopper.)
If you use BurgerKing Burger Framework, It's so easy to make Whopper Burger. (however, you cannot make Big Mac)
Anyway, In the end, they are all burgers. An important thing here is, you have to follow their framework's rule to make burgers. otherwise, you feel even harder to make it or won't be able to make it.
And you also heard that there is something called Simple Burger-Patty Library.
If you use this Library, you can make whatever burger patty so easily (X2 speed).
It doesn't really matter if you use McDonald Burger Framework or BurgerKing Burger Framework.
Either way, you can still use this Simple Burger-Patty Library. (Even you can use this Library without frameworks.)
Do you see the difference between Framework vs Library now?
Once you started using McDonald Burger Framework. It would not be easy to switch to BurgerKing Burger Framework. Since you have to change the whole kitchen.
If you start to build Web Application using Java Spring Framework, It would be hard(maybe impossible) to change to Ruby on Rails Framework later.
But Library, It would be much easier to switch others. or you can just not to use it.
A library implements functionality for a narrowly-scoped purpose whereas a framework tends to be a collection of libraries providing support for a wider range of features. For example, the library System.Drawing.dll handles drawing functionality, but is only one part of the overall .NET framework.
Libraries are for ease of use and efficiency.You can say for example that Zend library helps us accomplish different tasks with its well defined classes and functions.While a framework is something that usually forces a certain way of implementing a solution, like MVC(Model-view-controller)(reference). It is a well-defined system for the distribution of tasks like in MVC.Model contains database side,Views are for UI Interface, and controllers are for Business logic.
I think library is a set of utilities to reach a goal (for example, sockets, cryptography, etc).
Framework is library + RUNTIME ENVIRONMENT. For example, ASP.NET is a framework: it accepts HTTP requests, create page object, invoke life cycle events, etc. Framework does all this, you write a bit of code which will be run at a specific time of the life cycle of current request!
Your interpretation sounds pretty good to me... A library could be anything that's compiled and self-contained for re-use in other code, there's literally no restriction on its content.
A framework on the other hand is expected to have a range of facilities for use in some specific arena of application development, just like your example, MVC.
I think you pinned down quite well the difference: the framework provides a frame in which we do our work... Somehow, it is more "constraining" than a simple library.
The framework is also supposed to add consistency to a set of libraries.
Library - Any set of classes or components that can be used as the client deems fit to accomplish a certain task.
Framework - mandates certain guidelines for you to "plug-in" into something bigger than you. You merely provide the pieces specific to your application/requirements in a published-required manner, so that 'the framwework can make your life easy'
I don´t remember the source of this answer (I guess I found it in a .ppt in the internet), but the answer is quite simple.
A Library and a Framework are a set of classes, modules and/or code (depending of the programing language) that can be used in your applications and helps you to solve an especific "problem".
That problem can be log or debuging info in an application, draw charts, create an specific file format (html, pdf, xls), connect to a data base, create a part of an application or a complete application or a code applied to a Design Pattern.
You can have a Framework or a Library to solve all these problems and many more, normaly the frameworks helps you to solve more complex or bigger problems, but that a consecuence of their main difference, not a main definition for both.
The main difference betwen a Library and a Framework is the dependency betwen their own code, in oder words to use a Framework you
need to use almost all the classes, modules or code in the FW, but to
use a Library you can use one or few classes, modules or code in the
lib in your own application
This means that if a Framework has, for example has 50 classes in order to use the framework in an app you need to use, let said, 10-15 or more classes in your code, because that is how is designed a Framework, some classes (objects of that classes) are inputs/parameters for methods in other classes in the framework. See the .NET framework, Spring, or any MVC framework.
But for example a log library, you can just use a Log class in your code, and helps you to solve the "logging problem", that doesn´t mean that the log library doesn't have more classes in his code, like classes to handle files, handle screen outputs, or even data bases, but you never touch/use that classes in your code, and that is the reason of why is a library and not a framework.
And also there are more categories than Frameworks and Libraries, but that is off topic.
What is a Library?
A library is a collection of code blocks (could be in the form of variables, functions, classes, interfaces etc.) that are built by developers to ease the process of software development for other developers that find its relevance.
What is a Framework?
With reference to the definition of a library, we could define a framework as a tool that helps a developer solve a large range of domain-specific problems by providing the developer with necessary libraries in a controlled development environment.
Based on the definitions given in the book Design Patterns by Erich Gamma et al.:
library: a set of related procedures and classes making up a reusable implementation;
framework: a set of cooperating classes with template methods making up a reusable specification. It sets the control flow and allows to hook into that flow for tailoring the framework to a specific problem by overriding in a subclass the hook methods called by the template methods in the framework classes.
Problem-specific code can use libraries and implement frameworks.
Library vs Framework
Martin Fowler - InversionOfControl
Library and Framework are external code towards yours code. It can be file(e.g. .jar), system code(part of OS) etc.
Library is a set of helpful code. Main focus is on your code. Library solves a narrow range of tasks. For example - utilities, sort, modularisation
your code ->(has) Library API
Framework or Inversion of Control(IoC) container[About] is something more. Framework solves a wide range of tasks(domain specific), you delegates this task to framework. IoC - your code depends on framework logic, events... As a result framework calls your code. It forces your code to stick to it's rules(implement/extend protocol/interface/contract), pass lambdas... For example - Tests, GUI, DI frameworks...
your code ->(has) and ->(implements) Framework API
[iOS Library vs Framework]
[DIP vs DI vs IoC]
Really it depends on what definition you give to the terminology. There's probably a lot of different definitions out there.
I think the following are nice explanations based on what I believe this terminology refers to:
Deterministic Library
A deterministic library holds functions that are deterministic based on either a) function input or b) state that is somehow maintained across function calls.
Should logic be dependency-injected into a deterministic library, such logic must conform to a concrete specification such that the output of the library is not affected.
Example: A collision-detection library which for some reason depends on a sorting function to aid in these calculations. This sorting function can be configured for optimization purposes (e.g. through dependency-injection, compile-time linkage, etc), but must always conform to the same input/output mapping, so that the library itself remains deterministic.
Indeterministic Library
An indeterministic library can hold indeterministic functions by communicating with other external indeterministic libraries that it somehow gained access to.
I generally refer to indeterministic libraries as services.
Example: A poker library which depends on a random-number generator service for shuffling the deck. This is probably a bad example, because, for architectural purposes, we should push the indeterministic aspect of this library to the outside. The poker library could instead become deterministic and unit-testable by taking in a pre-shuffled deck of cards, and it's now the responsibility of the user of this library to shuffle the deck randomly if they so wish.
Framework
A framework is in-between a deterministic and indeterministic library.
Any logic that is dependency-injected into a framework must be deterministic for the lifetime of that function instance, but different function instances of varying logic can be injected on separate executions of framework functions.
Example: Functions that operate on lists such as map, filter, sort, reduce, that expect to take in functions that are deterministic but can have varying logic for different executions. Note that this requirement only exists if these list operations advertise themselves as deterministic. In most languages, list operations wouldn't have this constraint. The core logic of such frameworks are deterministic, but are allowed to accept indeterministic logic at the risk of the user. This is generally a messy scenario to deal with, because output can vary widely due to implementation details of the framework.