Question

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?

Answer 1

OOP lends itself well to programming internal computer structures like GUI "widgets", where for example SelectList and TextBox may be subtypes of Item, which has common methods such as "move" and "resize".

The trouble is, 90% of us work in the world of business where we are working with business concepts such as Invoice, Employee, Job, Order. These do not lend themselves so well to OOP because the "objects" are more nebulous, subject to change according to business re-engineering and so on.

The worst case is where OO is enthusiastically applied to databases, including the egregious OO "enhancements" to SQL databases - which are rightly ignored except by database noobs who assume they must be the right way to do things because they are newer.

Answer 2

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!

Answer 3

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.

Answer 4

In the only dev blog I read, by that Joel-On-Software-Founder-of-SO guy, I read a long time ago that OO does not lead to productivity increases. Automatic memory management does. Cool. Who can deny the data?

I still believe that OO is to non-OO what programming with functions is to programming everything inline.

(And I should know, as I started with GWBasic.) When you refactor code to use functions, variable2654 becomes variable3 of the method you're in. Or, better yet, it's got a name that you can understand, and if the function is short, it's called value and that's sufficient for full comprehension. When code with no functions becomes code with methods, you get to delete miles of code. When you refactor code to be truly OO, b, c, q, and Z become this, this, this and this. And since I don't believe in using the this keyword, you get to delete miles of code. Actually, you get to do that even if you use this.

I do not think OO is natural metaphor.

I don't think language is a natural metaphor either, nor do I think that Fowler's "smells" are better than saying "this code tastes bad." That said, I think that OO is not about natural metaphors and people who think the objects just pop out at you are basically missing the point. **You define the object universe,** and better object universes result in code that is shorter, easier to understand, works better, or all of these (and some criteria I am forgetting). I think that people who use the customers/domain's natural objects as programming objects are missing the power to redefine the universe. For instance, when you do an airline reservation system, what you call a reservation might not correspond to a legal/business reservation at all.

Some of the basic concepts are really cool tools

I think that most people exaggerate with that whole "when you have a hammer, they're all nails" thing. I think that the other side of the coin/mirror is just as true: when you have a gadget like polymorphism/inheritance, you begin to find uses where it fits like a glove/sock/contact-lens. The tools of OO are very powerful. Single-inheritance is, I think, absolutely necessary for people not to get carried away, my own multi-inheritance software not withstanding.

What's the point of OOP?

I think it's a great way to handle an absolutely massive code base. I think it lets you organize and reorganize you code and gives you a language to do that in (beyond the programming language you're working in), and modularizes code in a pretty natural and easy-to-understand way.

OOP is destined to be misunderstood by the majority of developers

This is because it's an eye-opening process like life: you understand OO more and more with experience, and start avoiding certain patterns and employing others as you get wiser. One of the best examples is that you stop using inheritance for classes that you do not control, and prefer the Facade pattern instead.

Regarding your mini-essay/question

I did want to mention that you're right. Reusability is a pipe-dream, for the most part. Here's a quote from Anders Hejilsberg about that topic (brilliant) from here:

If you ask beginning programmers to write a calendar control, they often think to themselves, "Oh, I'm going to write the world's best calendar control! It's going to be polymorphic with respect to the kind of calendar. It will have displayers, and mungers, and this, that, and the other." They need to ship a calendar application in two months. They put all this infrastructure into place in the control, and then spend two days writing a crappy calendar application on top of it. They'll think, "In the next version of the application, I'm going to do so much more."

Once they start thinking about how they're actually going to implement all of these other concretizations of their abstract design, however, it turns out that their design is completely wrong. And now they've painted themself into a corner, and they have to throw the whole thing out. I have seen that over and over. I'm a strong believer in being minimalistic. Unless you actually are going to solve the general problem, don't try and put in place a framework for solving a specific one, because you don't know what that framework should look like.

Answer 5

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

Answer 6

To me, there is a lot of value in the OOP syntax itself. Using objects that attempt to represent real things or data structures is often much more useful than trying to use a bunch of different flat (or "floating") functions to do the same thing with the same data. There is a certain natural "flow" to things with good OOP that just makes more sense to read, write, and maintain long term.

It doesn't necessarily matter that an Invoice isn't really an "object" with functions that it can perform itself - the object instance can exist just to perform functions on the data without having to know what type of data is actually there. The function "invoice.toJson()" can be called successfully without having to know what kind of data "invoice" is - the result will be Json, no matter it if comes from a database, XML, CSV, or even another JSON object. With procedural functions, you all the sudden have to know more about your data, and end up with functions like "xmlToJson()", "csvToJson()", "dbToJson()", etc. It eventually becomes a complete mess and a HUGE headache if you ever change the underlying data type.

The point of OOP is to hide the actual implementation by abstracting it away. To achieve that goal, you must create a public interface. To make your job easier while creating that public interface and keep things DRY, you must use concepts like abstract classes, inheritance, polymorphism, and design patterns.

So to me, the real overriding goal of OOP is to make future code maintenance and changes easier. But even beyond that, it can really simplify things a lot when done correctly in ways that procedural code never could. It doesn't matter if it doesn't match the "real world" - programming with code is not interacting with real world objects anyways. OOP is just a tool that makes my job easier and faster - I'll go for that any day.

Answer 7

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

Answer 8

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

Answer 9

I don't care for reuse as much as I do for readability. The latter means your code is easier to change. That alone is worth in gold in the craft of building software.

And OO is a pretty damn effective way to make your programs readable. Reuse or no reuse.

Answer 10

OOP is the process of implementing design constraints and superficial abstractions in order to attempt to coerce developers away from making sloppy code. If human intelligence (or more accurately, its limits) was not a factor, I'd say OOP would be a complete waste of time.

We should all be coding in raw binary! Wahahaha!

Answer 11

The problem with OOP is that it was oversold.

As Alan Kay originally conceived it, it was a great alternative to the prior practice of having raw data and all-global routines.

Then some management-consultant types latched onto it and sold it as the messiah of software, and lemming-like, academia and industry tumbled along after it.

Now they are lemming-like tumbling after other good ideas being oversold, such as functional programming.

So what would I do differently? Plenty, and I wrote a book on this. (It's out of print - I don't get a cent, but you can still get copies.)Amazon

My constructive answer is to look at programming not as a way of modeling things in the real world, but as a way of encoding requirements.

That is very different, and is based on information theory (at a level that anyone can understand). It says that programming can be looked at as a process of defining languages, and skill in doing so is essential for good programming.

It elevates the concept of domain-specific-languages (DSLs). It agrees emphatically with DRY (don't repeat yourself). It gives a big thumbs-up to code generation. It results in software with massively less data structure than is typical for modern applications.

It seeks to re-invigorate the idea that the way forward lies in inventiveness, and that even well-accepted ideas should be questioned.

Answer 12

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.

Answer 13

In the first place, the observations are somewhat sloppy. I don't have any figures on software productivity, and have no good reason to believe it's not going up. Further, since there are many people who abuse OO, good use of OO would not necessarily cause a productivity improvement even if OO was the greatest thing since peanut butter. After all, an incompetent brain surgeon is likely to be worse than none at all, but a competent one can be invaluable.

That being said, OO is a different way of arranging things, attaching procedural code to data rather than having procedural code operate on data. This should be at least a small win by itself, since there are cases where the OO approach is more natural. There's nothing stopping anybody from writing a procedural API in C++, after all, and so the option of providing objects instead makes the language more versatile.

Further, there's something OO does very well: it allows old code to call new code automatically, with no changes. If I have code that manages things procedurally, and I add a new sort of thing that's similar but not identical to an earlier one, I have to change the procedural code. In an OO system, I inherit the functionality, change what I like, and the new code is automatically used due to polymorphism. This increases the locality of changes, and that is a Good Thing.

The downside is that good OO isn't free: it requires time and effort to learn it properly. Since it's a major buzzword, there's lots of people and products who do it badly, just for the sake of doing it. It's not easier to design a good class interface than a good procedural API, and there's all sorts of easy-to-make errors (like deep class hierarchies).

Think of it as a different sort of tool, not necessarily generally better. A hammer in addition to a screwdriver, say. Perhaps we will eventually get out of the practice of software engineering as knowing which wrench to use to hammer the screw in.

Answer 14

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

Answer 15

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.