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As far as I can tell, in spite of the countless millions or billions spent on OOP education, languages, and tools, OOP has not improved developer productivity or software reliability, nor has it reduced development costs. Few people use OOP in any rigorous sense (few people adhere to or understand principles such as LSP); there seems to be little uniformity or consistency to the approaches that people take to modelling problem domains. All too often, the class is used simply for its syntactic sugar; it puts the functions for a record type into their own little namespace.

I've written a large amount of code for a wide variety of applications. Although there have been places where true substitutable subtyping played a valuable role in the application, these have been pretty exceptional. In general, though much lip service is given to talk of "re-use" the reality is that unless a piece of code does exactly what you want it to do, there's very little cost-effective "re-use". It's extremely hard to design classes to be extensible in the right way, and so the cost of extension is normally so great that "re-use" simply isn't worthwhile.

In many regards, this doesn't surprise me. The real world isn't "OO", and the idea implicit in OO--that we can model things with some class taxonomy--seems to me very fundamentally flawed (I can sit on a table, a tree stump, a car bonnet, someone's lap--but not one of those is-a chair). Even if we move to more abstract domains, OO modelling is often difficult, counterintuitive, and ultimately unhelpful (consider the classic examples of circles/ellipses or squares/rectangles).

So what am I missing here? Where's the value of OOP, and why has all the time and money failed to make software any better?

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Your analogy is too high an abstraction for your intended "use case"; table, tree stump, bonnet, someone's lap are compositions of molecules, atoms, protons, neutrons, electrons, forming a large-enough surface area for your butt to rest against by force of gravity. –  icelava Dec 31 '08 at 2:47
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No matter how many times this same thread is started, it always garners a lot of interest (despite the fact that duplicates are usually not tolerated here). And of course, the chosen answer is always one that agrees with the initial opinion of the asker. –  TM. Dec 31 '08 at 3:04
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The problem with OOP is failure to put it in context. It is excellent for some purposes, not all purposes. It is a great tool. It is a lousy gospel. –  Mike Dunlavey Dec 31 '08 at 15:19
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I'm sorry but I can't shake the feeling that you've never programmed using any kind of language. Here's why: OOP is the base of operation for base component libraries in all the modern environments (Java, .NET, Python, Ruby - just to name a few main-stream ones). All those base libraries are reused on a daily basis so if that doesn't count I don't know what does. So don't get me wrong here but code reuse if a fact - and an extremly common one! I don't want for this to sound offending in any way - just making a point here. –  Matthias Hryniszak Aug 8 '09 at 19:08
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@George Jempty: It was Joel Spolsky in "How Microsoft lost the API war" (joelonsoftware.com/articles/APIWar.html), headline of the passage is "Automatic Transmissions Win the Day". –  GodsBoss Feb 19 '10 at 16:42
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44 Answers 44

HANDLEs (and the rest of the WinAPI) is OOP!

Are they, though? They're not inheritable, they're certainly not substitutable, they lack well-defined classes... I think they fall a long way short of "OOP".

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Maybe a bonnet, lap or a tree is not a chair but they all are ISittable.

Yes, but only ex post facto. They're ISittable because someone sat on them.

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I know I find OOP useful pretty much solely on a syntactical sugar basis (encapsulation, operator overloading, typechecking). As to the benefits of OOP... I don't know. I don't think it's worse than procedural stuff.

On the lighter side, my OOP lecturer said that OOP is important because otherwise the "code would have too many loops". Yeah. Sometimes it's depressing that I pay $500 per paper. :(

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To me, the value of OOP is to reduce the scope and to separate state from behavior. With smaller scope, code is easier to understand.

It can be done in most languages, all is needed to achieve this is a way for a state to delegate a method call to a behavior, and a way for a behavior to further delegate the call to a parent behavior.

As to have a set of classes model a domain in an effective way, there is no magic method. Like a piano, we have to practice. OOP is an abstract tool, it can help you build code in a simpler way, but it can't think and analyze the domain of your app for you.

What works for me is to stay close to the domain as long as possible, while still avoiding most code duplications.

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The point of OOP is to give the programmer another means for describing and communicating a solution to a problem in code to machines and people. The most important part of that is the communication to people. OOP allows the programmer to declare what they mean in the code through rules that are enforced in the OO language.

Contrary to many arguments on this topic, OOP and OO concepts are pervasive throughout all code including code in non-OOP languages such as C. Many advanced non-OO programmers will approximate the features of objects even in non-OO languages.

Having OO built into the language merely gives the programmer another means of expression.

The biggest part to writing code is not communication with the machine, that part is easy, the biggest part is communication with human programmers.

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It's the only language-portable methodology for keeping variables grouped together with the functions/methods/subroutines that interact with them.

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Is that desirable? Isn't the VISITOR pattern essentially saying that sometimes you want to add behavior without modifying the classes? Isn't VISITOR being a pattern rather than an anti-pattern witnessing the fact that sometimes you can't or shouldn't group data and behavior? –  Jonas Kölker Jun 25 '09 at 22:34
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OOP helps separate interface from implementation. You do not need OOP support in the language to benefit from OO design.

One small example where OOP has helped tremendously:

The UNIX Virtual File System (VFS) layer presents a uniform interface (open/read/write) using tables of function pointers -- much like the C++ virtual table dispatch.

Clients use the same set of calls regardless of whether they are talking to a local file system, a remote Network File System (NFS) or (today) fake file systems (e.g. /proc).

See the original Sun paper: Vnodes: An Architecture for Multiple File System Types in Sun UNIX

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Will we say the same things ten years from now about functional programming?

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The real world isn't "OO". The real world is not largely structured from sensible pieces. Instead it's made from chaotically moving particles. The earth is a particle soup. Still people see birds, trees, sky, ground, forests, ponds. OO is about abstraction of program components. It's fundamentally flawed to think about OO for modelling something else than programs.

All the money and time failed to make software any better, because it failed to make programmers smarter, also because it failed to change the way how people think about software. "OOP" in the sense you use it is a buzzword used to get the money out from idiots. Yes, people who have put money on "OOP" education and tools are idiots. People who tend to fall on hoaxes tend to be idiots.

The value of "OOP" is the abstraction and the code reuse inside the same program. OOP is meant to be used with imperative programs.

If you get up from assembly routines. Assembly is an ordered sequences of pairs composed from labels and instructions. Assembly code is similar to the 'particle soup'. Now you can move to the subroutine. Subroutine picks a label from that label:instruction -soup, and hides the rest of labels inside the subroutine. As the effect code becomes more abstract and your namespace stays cleaner.

Now, if you think what subroutines do... Few of decades ago people were thinking that subroutines are at their best when they work on the arguments. That made them to give each object it's own protocol. Protocol would contain label:procedure -pairs. Now called selector:method -pairs. Procedures weren't bound directly to the other procedures anymore, explaining the 'late binding' -term. Along with keeping the history from the protocols (inheritance), this formed the 'object orientation' in the smalltalk.

You've been incapacitated the late binding mechanism and forgotten what inheritance means. And you yet wonder what you are missing there. "Where's the value of OOP, and why has all the time and money failed to make software any better?" - I think you stuffed them into your arse. When you attempt to colonoscopy you will find them.

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There are already a lot of answers on this as this is an old post but i thought i'd chime in.

You mention "class taxonomy" a bit which gets into subtyping and polymorphism. This all revolves around inheritance which in it heyday was considered the silver bullet of OOP. Nowadays, inheritance and large class hierarchies are actually discouraged, even among shops that do a lot of OOP. This is because the other pricinples of OOP, such as encapsulation, loose coupling, cohesion and so forth have been found to be far more useful than inheritance. I would even go so far to say that loose coupling is the reason for OO, not code reuse. Code reuse usually happens at the method/function level. I do sometimes reuse classes under different circumstances, but not that often. Loose coupling though helps organize a system quite a bit. Each object has its own scope, the data in the object isn't or should not be manipulated except by accessor methods or properties, each object should do one simple thing and should talk to other objects thru simple interfaces. This handful of principles helps code readability, helps isolate bugs and prevent you from having to make many changes in lots of different places to change one thing. When objects are not closely intertwined, you can change one without affecting others. This has been a huge benefit to me. Inheritance is useful only now and then.

Code reuse is still important and if you are copying and pasting or rewriting the same code, thats a bad practice even under plain old procedural, structured or functional programming. That actually increases costs due to duplicated effort, increased maintenance and more bugs.

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From my experience which started in C/Unix (non OOP) in the mid 1980s then moving onto C++ (OOP) in 1990 and then into Java around 1996 (OOP) I have found OOP to give a massive boost to productivity, maintainability and robustness compared with the large non OOP programs I was working on earlier.

The main thing I have observed is that in non OOP applications I have worked on the complexity seemed to grow at an exponential rate with respect to the sophistication of the application whereas in the OOP applications I worked on the complexity seemed to have a much more linear relationship with repect to the sophistication of the application.

In other words - with well designed OOP applications you never get that "OMG the source code for this app is getting waaaaay out of control" feeling that you get with large non OOP applications.

The other things I can't do without as an OOP developer is the way I can write code that models the real world entities that exist in the application's problem domain. Objects take on a life of their own - way beyond what any structs (C) or Records (Pascal) did back in the bad old =] non OOP days.

The one stipulation is that the chief architect of an OOP project must know what he's doing and he has to usually put more thinking time into getting the design right than in actually implementing it but the payback for 'thinking things through up front' is truly amazing. Opportunities for reuse or awesomely cool design optimizations come to light that have you punching the air and doing touchdowns in the office... ok, that might look a bit strange to the others in the office but that kind of enthusiasm never happened in the non OOP days :)

I've seen some pretty badly written OOP code and maybe that's what you've experienced which may have lead you to ask the question. As a contractor in the mid 90s I often found that the 'OO' design had already been started by someone who knew what a class was but not much more. It was a very painful experience and I often found that my first few months in a job involved educating the team in the very different way of 'OO' thinking. It was only after everyone's brain had been rewired that we could all proceed as a team to create something awesome.

Many people find the 'brain rewiring' process too hard, painful or just too much effort and so spend their life dissin' OOP and so you'll find a lot of OO haters out there but I'm happy about that because it's those people that make people like me look good: "What, you can do it for $X and it will be ready in 2 months and you will give us a maintainable code base!!! Wow, can you start today?"

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If you wish to avoid the feeling that "OMG the source code for this app is getting waaaaay out of control" then the thing to focus on is "well-designed", not "OOP". –  DrPizza May 1 '11 at 2:17
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OOP has reduced costs, and increased efficiency.

When I made the jump from classic ASP/VBScript to C# I noticed a HUGE increase in productivity thanks to OOP.

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I agree with InSciTek Jeff. Even if you don't use OO in its purest sense, Encapsulation Theory can help reduce potential structural complexity: http://www.edmundkirwan.com

@ DrPizza

If procedureal programming uses the benefits of encapsulation to the same degree then good on it!

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Try TDD and then you'll see the values of OOP.

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