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Even when viewing the subject in the most objective way possible, it is clear that software, as a product, generally suffers from low quality.

Take for example a house built from scratch. Usually, the house will function as it is supposed to. It will stand for many years to come, the roof will support heavy weather conditions, the doors and the windows will do their job, the foundations will not collapse even when the house is fully populated. Sure, minor problemsdo occur, like a leaking faucet or a bad paint job, but these are not critical.

Software, on the other hand is much more susceptible to suffer from bad quality: unexpected crashes, erroneous behavior, miscellaneous bugs, etc. Sure, there are many software projects and products which show high quality and are very reliable. But lots of software products do not fall in this category. Take into consideration paradigms like TDD which its popularity is on the rise in the past few years.

Why is this? Why do people have to fear that their software will not work or crash? (Do you walk into a house fearing its foundations will collapse?) Why is software - subjectively - so full of bugs?

Possible reasons:

  • Modern software engineering has existed for only a few decades, a small time period compared to other forms of engineering/production.
  • Software is very complicated with layers upon layers of complexity, integrating them all is not trivial.
  • Software development is relatively easy to start with, anyone can write a simple program on his PC, which leads to amateur software leaking into the market.
  • Tight budgets and timeframes do not allow complete and high quality development and extensive testing.

How do you explain this issue, and do you see software quality advancing in the near future?

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closed as primarily opinion-based by Juhana, Jeroen, David Souther, greg-449, Ganesh Sittampalam Dec 22 '13 at 15:59

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53 Answers 53

I think the problem is inherently human. Human brains haven’t developed to cope well with this high degree of abstraction required in software development. Our ancestors had to face tigers in the savanna. Natural selection dictates that they evolved by adapting to this situation.

Most animals, even “intelligent” ones, fail at the most simple tasts that require any kind of abstraction at all. For example, I’ve heard from zoologists that cats are unable to find their food if, in order to get to it, they have to turn their back to the food source. They just can’t make the mental connection that turning in the opposite direction might help them bypass an obstacle.

Human minds can cope with much higher degrees of abstraction. However, the problem of software development is a completely new one. There has never been a comparable situation. Even though humans have known mathematics for millenia, this has never been a factor favoured in evolution (and the time span has been much too short to play any role in evolution anyway).

In conclusion, human minds aren't really well evolved to face this kind of task. It just doesn’t come natural. Therefore, everything has to be found out the hard way. Intuitively, we say “building software is much more complex than building houses” – in a way, that’s right. But it’s most probably due to what I’ve outlined above.

Admittedly, that explanation, even if right, is quite abstract and I do think that software quality will improve substantially in the near future (long before any mechanism such as natural selection can kick in) because we’ll find out more about the processes involved and how to refine them.

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One major reason is that for the most part, software "engineers" aren't really trained as engineers. One of the most important principles in engineering is to keep designs as simple as possible in order to maximize reliability (fewer parts = fewer things that can fail).

Most software developers that I've worked with over the years are not just unaware of the KISS principle, but also actively committed to making their software as complicated as possible. Programmers by their nature enjoy working with complexity, so much so that they tend to add it if it isn't there already. This leads to buggy software.

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Also, most software engineers suck... the elephant in the room?... –  ljs Dec 7 '08 at 14:38
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I'm glad you put ellipses in there. :) –  MusiGenesis Dec 7 '08 at 17:26
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KISS? Yeah Right :-) We'd all love to keep it simple but the bloody users keep coming up with obscure business rules that need X tweaking. Simple software is only found in the pages of textbooks or taught on CS courses –  Cruachan Dec 8 '08 at 9:00
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and a lot of them suck because they heard that its good money on the radio, and now they convinced someone to hire them, not because they are passionate and interested in the craft –  DevelopingChris Aug 10 '09 at 12:59
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A bridge has only one function. To make an analogy, you need to compare it with a software that has only one function, like notepad. I would say you get the same degree of quality from a bridge then from notepad. On the other hand, a complex software would need to be compared with a complex structure, like a whole city would equal windows. With the money injected every year in city infrastructure maintenance, I'd say a whole city is just as crappy as windows is. –  didibus Feb 13 '10 at 8:05

Like software, a house is made of many smaller structures - bricks, doors, roof tiles and so on. Unlike software, however, each of these pieces has already been pre-made and tested long before it reaches the house. Bricks are subject to stress and pressure testing, door hinges are tested thousands of times for durability so the fact that these parts should not fail is a given and we know their limits.

In software, each part is often being used for the first time - that is, it's entirely new code. Maybe we don't know quite how it behaves in all circumstances. This is one reason why I believe so much in code re-use where possible.

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Thank you for giving me a great explanation why unit testing is so important +1 –  Marcel Jan 12 '10 at 21:45

Not a comprehensive list but I can see several reasons:

  • An unexpected microfailure in a physical system is generally not catastrophic, but it can be in a software system. A single uncaught and unhandled exception is not recoverable.
  • It is difficult for a customer to inspect a software system; developers and product managers know this (at some level) and are willing to trade quality for expediency
  • The costs of a software failure are often not as high as the costs of the failure of a physical system, thus it often does not pay to invest the resources to prevent all failures.
  • Many (if not most) computer science programs don't do a good job of teaching programming skills. They focus mainly on the science of computing rather than the craft of programming.

These are not defenses, just observations. Personally, I would recommend using practices that reduce the incidence of error, like TDD, customer on-site, pair programming, continuous build, etc.

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In my opinion the following are at least partially responsible:

  • Thorough and complete testing is tedious and time consuming
  • Sometimes its less expensive to ship buggy software than it is to fix it (or, more likely, its perceived to be less expensive)
  • Lack of understanding of the problem being solved. If you don't completely understand what you are solving, its going to be difficult to do so without introducing bugs.
  • Most programmers are pretty bad programmers (my opinion, of course, but in my own experience, I'd say only one in five programmers really know what they're doing)
  • If a problem is complex, its easy to get lost in one aspect and neglect another
  • Some programming languages are too verbose, making it difficult to keep the whole problem in mind at any one time, which allows bugs to creep in (for example, I tend to make more mistakes in Java than in Python, it may just be coincidence, of course, but I feel that Pythons higher level code helps me solve problems in fewer discrete chunks, leaving less room for bugs)
  • Dependencies. I believe that dependencies (I mean calculations and data which depend on one another) are a major cause of bugs - when they're not managed properly anyway (dependents not getting updated when they should etc)
  • A lot of programmers are lazy or distracted causing them to make mistakes. I know I'm guilty of this sometimes.
  • Most programmers aren't rigorous or methodological enough when approaching a problem. Instead of carefully planning out a solution and verifying that it is correct (formally or otherwise), they instead dive in and start coding. I know I sometimes do this even though I know I shouldn't..
  • The tight coupling of operations (instructions, statements, code blocks, functions etc) makes code less dynamic and fluid, which makes it difficult to update code, determine where code should be split up, what code can be reused, what should run concurrently and so on. This is, IMHO, another large source of error and one thats not easily solved with existing code.

And probably many more factors which I have forgotten about.

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A lot of high-falutin' ideas here, but I think the answer is very simple.

I'm not trolling, but the fact that most software engineers a. suck and b. have absolutely no desire whatsoever to develop themselves has everything to do with this. The 9-5'ers, especially in internal software (I work in internal software myself so... :-) just have absolutely no idea what they're doing, nothing in place to specify what is good and what isn't, the blind leading the blind. It's very rare for software to be developed to anything resembling a good standard anywhere. Most software is a big ball o' mud.

Ultimately there are a few good software houses out there, the rest suck. And we are stuck with the suck on the whole... the amazing thing is that anything actually works!!

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Not that I disagree with you, but do you think that's all there is to it? The building industry has just as many 9-5'ers with no desire to improve, don't they? –  jalf Dec 7 '08 at 17:13
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Who says NASA programmers are experts? –  MusiGenesis Dec 7 '08 at 18:12
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The astronauts whose lives depend on their flight-control software. –  Tom Dec 7 '08 at 18:57

This problem is definitely not unique to software development. All the reasons you mentioned are valid, but in cases that software is not life or mission critical, much less attention to quality is generally given.

As such, the house analogy is not a good one - if houses break-down, human lives could be lost which is unacceptable. For this reason a much tighter quality control is maintained.

There are plenty of industries that quality is all over the board, and it is usually contributed to value considerations. You pay more - you get higher quality products, and it's the same in software development.

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"Take for example a house built from scratch. Usually, the house will function as it is supposed to. It will stand for many years to come, the roof will support heavy weather conditions, the doors and the windows will do their job, the foundations will not collapse even when the house is fully populated. Sure, minor problems do occur, like a leaking faucet or a bad paint job, but these are not critical."

This is clearly not true -- it's a really bad example. I've seen a large number of houses that are just shacks. Houses that can, and often do, simply collapse in heavy weather. They don't use windows and the door is a sheet of plywood.

To get away with building a shack instead of a house, you have to build your shack where there are no housing codes or standards. Or, you have to evade inspection by claiming you don't "live" there. Or you have to be heavily armed so that the inspectors don't bother you.

[bignose] Indeed. Also relevant is that many of us (including, I suspect, the person who wrote the original question) live in countries where housing is strictly regulated, and poor quality is considered unacceptable even if both builder and purchaser want to cut corners. In the absence of that enforced regulation, housing runs the whole range including ghastly deathtraps; that is what we see in the field of software.

Software quality is like all other forms of quality. The issue is this.

Most consumer products have warranties (expressed or implied). Some even have applicable standards for safety.

Consumer shrink-wrapped software specifically avoids offering a warranty of any kind. It's a sad, shabby business. To avoid warranty claims, they don't let you purchase software; you merely license it, or purchase a right to use. Read your EULA's. There's no warranty. Quality doesn't matter.

In-house software, developed by large IT organizations, has no warranty of any kind either. It's entirely based on corporate politics, internal reputation and influence.

Most of the time, most in-house software developers actually have good reputations and have earned those good reputations by providing outstanding levels of service.

But some software developers are slapping shacks together with cast-off plywood, pallets, blue poly tarps, and the remains of an old travel trailer that they found.

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interesting insight. –  Chris Dec 8 '08 at 8:37
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Also relevant is that many of us live in countries where housing is strictly regulated, and poor quality is considered unacceptable even if both builder and purchaser want to cut corners. In the absence of that enforced regulation, housing runs the whole range including ghastly deathtraps; that is what we see in the field of software. –  bignose Mar 23 '10 at 6:08

i believe broken windows syndrome is also a real factor here. and depending on where your working and how strict is your company's code review process, a lot of bad codes can go in and build up.

especially when most apps survive longer than their initial expected time line.

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I think it's because every part of a (well-written) piece of software is unique. A house is a big project, but there's a lot of repetition: there are a ton of identical nails, 2x4s, bolts, bricks and so on. In contrast, in a well-written piece of software there's only one of each thing. It's like building a whole house by reusing the exact same brick, nail, and piece of lumber over and over: sure, you make a smaller project, but if that single brick, nail or piece of lumber is shoddy, the whole house will fall down.

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Houses are sturdy because of the amount of redundancy. If one nail is out of place, it generally doesn't cause the house to fall. In software, the equivalent of a nail out of place could cause the whole thing to crash. –  Kibbee Dec 7 '08 at 19:51

Engineering in all other disciplines is a highly mathematical subject -- a structural , aeronautical, or chemical engineer can analyze the problem they are trying to solve using well developed mathematical models.

All attempts to do this for software engineering on a large scale have failed.

The may be due to the relative 'newness' of software engineering, but I think it is more inherent than that.

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Though I agree with the reasons given so far, there is one very simple explanation missing here that is rampant throughout the software industry: bad management.

I worked as a consultant for many years, and I can't tell you how many places I've worked at where the developers were expected to finish yesterday a project they were given tomorrow. It was either deliver the project on time or lose your job, so we had no choice but write code that was thrown together and not adequately tested. This was especially prevalent where the managers were not in the IT field themselves and had no clue what it takes to write and support quality software.

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Yes, exactly. Great projects are defined in terms of quality, not time. That's why open-source works best; there's no deadline to get it done. –  Kent Brewster Dec 13 '08 at 18:16

Another reason not mentioned so far: even though a software achieve a reasonable good "quality" (in the sense it does do what initially specified), it still can goes horribly wrong.

Why ?

Because the final client may ending up using it with totally different conditions than the ones specified in the beginning, making the software pretty much useless.

Case in point: the computing the return rate of house mortgages, based on 20 years of data, does a perfect job... until you start feeding it with NINA mortgages (No Income, No Asset): it will still keep saying the return rate is fine. Actually... we know all too well by now the real return rate for those mortgage ;)

So the difference with the quality of an house is that you have to evaluate the usage conditions of a software released into production to really asses its quality...

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As others have pointed out, there are plenty of badly built houses, houses that are so infected with fungi after a single year that it's a hazard to your health to live there, houses where the rain leaks in through the roof, houses that collapse in windy weather and houses that fail in countless of other ways. And not just that, there are also countless of structural engineering projects which end hugely breaking their budget, taking years more than planned, and costing three times the original estimate. That is not unique to software engineering.

But another important factor is that building engineers can take a lot of things for granted. When you're building a house, you don't have to implement gravity yourself. The structural strength of steel or concrete just happens, you don't need to do anything special to ensure that it works in leap years too, or if the user opens the bathroom door at the same time as the phone rings.

In software, the only rules are the ones you code yourself. You're building a house out of the empty void, not out of well-known materials like concrete, steel and wood, and without the luxury of a fixed framework supplying gravity, solid ground, a consistent and stable atmosphere consisting of the same mix of gases every day, and keeping a pretty much constant pressure.

Of course, there is also plenty of bad management, plenty of incompetent programmers, plenty of bad practices, and so on. But it's not just that.

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Absolutely. Additionally, I think part of the problem is exactly that we insist on thinking about "software construction" in terms of analogies to physical construction, and hand-wave over the important differences that you mention. –  Tim Lesher Dec 8 '08 at 3:38
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"The structural strength of steel or concrete just happens." This is extremely false, as any building inspector will tell you. These things can only "just happen" when there are strict standards dictating steel and concrete composition, along with frequent testing, and thorough enforcement. Your house is not simple. It is the result of hundreds of years of small refinements to structure and materials. Of course, the builders have the advantage that people keep asking them to build the same thing over and over. –  PeterAllenWebb Sep 9 '10 at 12:24

One of the reasons is that the industry is very young compared to, e.g., masonry (no conspiracy theories, please). Also, ours is a field that changes too quickly. Consequently, we are never at the top of the game :( but we do try.

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I don't feel comfortable with all the house-building analogies. Most people (even programmers) are not aware, that any nontrivial software is usually much more complex than a house. Also the parts of a software system have zero tolerance for errors. A house will not break down, if one brick is slightly off spec, software will.

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Making a house that will stand up to normal weather and aging can be accomplished with simple constraints on selection of material and distribution of load. There are no shortage of modeling systems that can spit out workable designs automatically.

So yea following a few simple rules you too can design a simple structure that does not fall down, so what? :)

I love my new house but its far from bug-free. The builders failed to do the proper flow analysis of water through the piping and the result is aweful water hammer effects when the outside sprinklers are switched on.

The concrete floor in the basement started cracking after only 2 years.

There are several places where cracks have developed in walls.

The blower motor in the furnace failed after 1 year of use.

Sinks not properly cauked from the beginning causing water seepage and big mess in sink cabinents.

After a few days of 90+ deg inside temperature all the rubber door stops in the entire house cracked and needed to be replaced.

Various GFIs were too picky to be useful for powering much of anything and needed to be replaced..

A few florescent lighting fixtures went bad after the first year and needed to be replaced.

God knows if you've ever gone through the process of building a new house even with contractors who have their own QA people you still need to keep up on top of everything and file 'bug reports' regularly (Of which I've filed countless dozens) to end up with a house that resembles the one you ordered.

I like most home owners are no stranger to home depot... Until we have houses that can last 100 years without any problems or "regular maintenance" then I disagree with the basic premise.

Lack of formal training is a universal problem. Complexity is a universal problem. Just because houses are "big structures" does not also mean they are "complex structures".

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I see a lot of browbeating here, but I think we should acknowledge one point:

Software Development is HARD

It used to be considered a truism that when IBM wrote OS/360 it was, at that point, the most logically complex system ever developed by humans.

Since then we've developed techniques of handling more and more complex systems. Our languages, APIs and tools have added layers of conceptualization and abstraction not dreamed of when OS/360 was hand-cranked together. The trouble is the complexity of what we are trying to achieve has increased in step - or maybe even a little more than.

Now this isn't to decry that there is problems with over-tight deadlines, poor programmers and all the issues brought up here. But the modern world practically runs on the software developed over the past 20 - 30 years and while there's lots of room for improvement we're not doing too badly - all in all.

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I think this is probably the closest answer, but I'd like to add one more thing: Software development is in its infancy. While engineers have had hundreds, even thousands of years to perfect their craft, software engineers have had a handful of decades. –  Jeff Hubbard Dec 8 '08 at 7:38

I think it has a lot to do with the malleable nature of software.

Because software is heavily modified over time, it's important for it to be designed such that changes in one part of the software don't affect other parts of the software. Even though principles for addressing this are widely understood in our field, there are a couple of problems. The first is that there are plenty of individual practicioners who don't understand or care about those principles. The other is that there can be competing forces that cause us to violate those principles (budget, schedule, or even engineering concerns such as performance engineering). So over time software becomes complex and brittle unless you apply constant discipline to prevent that outcome.

Another piece is that because everybody (developers, managers, even customers) understands software is malleable, people have at least some level of comfort with the idea that if there's a bug, we'll fix it with the next release or patch. I've often heard it said that it's more expensive to fix prod bugs than QA bugs, and more expensive to fix QA bugs than dev bugs, etc., and given the economics we should do things like QA and unit testing. And ultimately I agree, but the idea can be carried too far. If you're able to find the bug via unit testing or QA, yeah, you're better off, but there's a cost associated with finding the bug in the first place, and diminishing returns kicks in pretty quickly due to the underlying complexity of the system (e.g. combinatorial explosions in the number of possible configurations). So the economics mandate catching most problems in dev/QA by investing in training, code reviews, testing disciple, etc., but not trying to be exhaustive, because in most cases the costs of fixing user-discovered bugs is reasonable. This is very different than most consumer products, where the cost associated with fixing bugs is great. The ROI for catching problems early is much greater if a late discovery is going to mean a recall or pulling something off the shelves.

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To go with the building example: It's like you build a small hut, and after being half done building it the owner comes along and says: "Look, I thought about it and I'd rather have a villa." - So you change the building, but the fundament has already been laid, so you have to modify what's already there. The owner comes back after two months and says "Guys, one bathroom is not enough. I'd rather have three. It's done tomorrow, right?" And so on and so on. Good software engineering relies on permanent iterative re-architecturing over time. –  Thorsten79 Aug 13 '10 at 8:06

I can agree with most of the discussion above, but there is one factor I think has been overseen: pricing of software. When MicroSoft produces a mastodont like Word they have to put a lot of effort in the work, but they can spread the costs over millions of users, so the customers get used to low prices. Added to this we see a lot of "free" software, and even people thinking they have the right to get those intellectual efforts for free. So the software developer is caught in a situation where he has to a. take his time, be careful, test thoroughly, you name it .. and not getting the money back OR b. make it quickly to get some reasonable amount for the work. The final result will probably be somewhere in between, but the limits are there.

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The business reason: because the vast majority of software does not need to be high quality.

A low quality bridge or a low quality car can easily kill someone. Thousands even. Low quality software however, will usually just annoy people. It is simply not worth it to spend as much time making quality software in most cases.

Indeed, if you look at the software used in safety critical applications, it is usually of far higher quality. It has spent more time in development, and been more thoroughly tested. It has been engineered in the same way a car or bridge would be engineered.

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  • When building a house, construction plans do not change while the house is built.
  • There are little requirements engineering skills needed by the building company.
  • Usually, there is an professional architect. Architecture is a special profession.
  • Physical structures do have less degrees of freedom than logical structures.
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One very unfortunate reason: Humans.

Human brains are not really built for elaborate networks and relations of complex abstractions.

Thus, while humans can deal with complex buildings or machinery because these are (literally) concrete by relying on things like physical dimensions and proximity and the natural laws of physics, the same cannot be said for software.

At best, we can use engineering practices to break down problems in such a way that we only have to grasp smaller problems at a time or that we can impacts of our mistakes are limited.

In addition, human communication is ambiguous and ineffective by the nature of natural languages, while software must be precise by nature.

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I agree to all of your points. Especially:

  • It took e.g. mechanical engineering centuries to get to the current state where they are able to have exact knowledge about how to dimensionize a part, they have standard parts, ...
    Unfortunately that what is called "Software Engineering" so far mostly failed to deliver methods and tools that fulfill the same purpose for our trade. We are still in the middle age where some knowledge is there and can be applied for special areas, but no consistent standard theory of the software development process (and Tools supporting it) seems to exist so far. The reasons for that are too complex to discuss them here, mainly because they see the process of software development too superficially.
  • Software has got a complexity and fragility not found in other areas. E. g. a car has got number of parts in the four-digit or lower five-digit area (although some of them quite complex), a piece of software can have millions of statements.
    And noone would accept a car that is falling apart while you drive just because e.g. the ash tray overflows, would you?

Additional points:

  • The tools used by most people are far from "state of the art". E.g. the most common errors in C/C++ like pointer errors and buffer overflows can hardly happen in Pascal-style languages like Ada that have been available for decades.
  • Mechanical parts usually have some tolerance to overload. E.g. in aerospace parts are overdimensionized by 50% or more so that an undetected damage to a part will usually not cause a serious failure until (hopefully!) discovered during the next routine maintainance interval. Similiar concepts exist in other areas of engineering. Doing this in software development is much additional work (you need a customer who wants this and is willing to pay for it) and still not 100% safe most of the time due to the huge number of possible errors.
  • The industry leaders tend to either not making use of the state of the art or taint it when trying to implement it. E.g. C# has got some very good basic concepts, but the C-style syntax is confusing, error-prone trash, Pascal syntax is much clearer, and the security concept was tainted by the possibility of using unsafe code. Libraries still usually have only a C interface as the smallest common denominator.
  • Many people in the business lack a knowledge about the necessarity of building appropriate abstractions.
    E.g. operation systems usually have only two layers of security, user and system. If a process (e.g. some evil script in a web browser that has corresponding securiety holes) can get user access rights, it can violate all data that the user has access to.
    And if a user process can get system rights, it can do with the machine whatever it wants.
    Different, fine-grained concepts exist, but are hardly used for several reasons, including lazyness of the programmer or backward compatibility, but also because these have been fittet to APIs afterwards and therefore have neither good granularity nor good performance, but also being proprietary and unportable.
    The same applies for development tools. Why can a broken statement in a C/C++ program break data or even the program at a totally different location, causing unpredictable results? Why don't we have "unbreakable" standard parts?
  • People go to the limits of existing basic technologies or beyond instead of creating better basic technologies first.
  • Users got used to seeing failures as "normal", even serious ones that noone would accept in e.g. a car.
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Because people get the quality they deserve.

If you buy a DVD player and it doesn't work, you take it back, bang the table, log it on some Internet forum etc.

The manufacturer starts to get a bad press and does something about it.

But if you are running some application and it throws an error along the lines of "The program has encountered a problem and need to exit", we all just accept it, restart, reboot or whatever.

There is no compulsion in this case for the vendor to do anything.

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I think that is the wrong question to ask. Quality software is made and does exist. Some of it is still running reliably years after it was created.

The real question is why is software quality so expensive. It is expensive enough that people requisitioning a system would prefer to keep a buggy system that only just does it rather than pony up for the huge expense of finding and fixing the bugs. Leading to crappy software being released.

Quality software is hard to keep quality too. Imagine a console app that was written years ago and written well? Compared to an interface written in modern tools, that is no longer quality. Technology has moves so fast. For a car it takes decades before it's interface is no longer considered quality (well, not so much now that computers are being integrated into the bloody things).

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I see time and time again that the marketplace does not reward software quality. Apple is a good example; for many years they had a superior product, but people would not pay. (Not just the up-front costs of Apple but also the costs to change from whatever they were using that year.)

I still see many people making buying decisions on the idea that 'more is better'. Both Microsoft and the Free Software Foundation have conditioned people to two pernicious ideas: 1. The product with more features is always better. 2. It is OK for software to fail once in a while. Because the people making buying decisions do not understand that simpler is better, there are tremendous economic incentives to create software that is complex but appears to have nice features.

War story: in the early 1990s, a friend of mine tried to write his dissertation using Microsoft Word. Everything went fine until his manuscript got to around a hundred pages. At that point Word refused to let him change it any more. The eventual fix was for him to double the amount of memory on his PC. In the early 1990s this was an expensive fix.

After it was all over I asked why he had chosen Word. His response:

I liked the alleged features.

People buy software on perception, not on reality. It doesn't matter if the reality of the software is that it is hard to use or doesn't work; if it looks good, people will buy it.

Friends of mine who study economics tell me that this behavior is the sign of an immature market and that when computing matures and the demand for computing stabilizes, things will be different. I am not so sure---I look at the market for automobiles, which have 100+ years of engineering knowhow put in, and I see a much bigger market for cars that make people feel good than I do for cars that are boring but just work. I look forward to a day when buyers reject programs for having too many features and insist on buying simple, boring programs that just work.

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+1, plus more if I could. Quality software sucks because quality is expensive. Really expensive. And people don't want to pay for it. –  Greg D May 27 '09 at 13:06
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Cars are status symbols so I don't think that's a good comparison ... hopefully software isn't a status symbol--for anybody. –  rpflo Oct 10 '09 at 5:01
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If you think the only difference between a quality car and an expensive car is status, you must have only driven one type of car. –  notJim Nov 26 '09 at 9:49
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Isn't you whole point undermined by the fact that Apple have been rewarded in the marketplace when they started doing things right, just after Steve Jobs returned? Their stock price has gone up greater than 100x in the last 15 years. –  Matthew Lock Mar 23 '10 at 6:13
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I was surprised to see a mention of Free Software Foundation. What have they done to perpetuate that idea that "more is better" and "it's okay to produce crap"? –  Tshepang Apr 28 '10 at 19:04

http://en.wikipedia.org/wiki/Gresham's_Law

I tried around 5 times to make that link a link. I give up. Anyway Gresham's Law extends to any situation where low quality is accepted in place of high quality.

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Moore's Law causes some of the problems. Unlike Civil Engineering, everything changes quickly, so that expertise, standards, and reliable components are obsolete long before they have matured. Before we can work out how to properly solve the problem, it's gone. Topical example: many-cores.

Civil Engineering has also absorbed new technologies (e.g. pre-stressed concrete), but it's many times slower, and it doesn't require the reinvention of everything.

I also think the fact that software is so malleable that we can reinvent everything, is a contributing factor towards the pace of change. :-) It's more expensive to build a house, so people are more circumspect. However, as someone said, you're not allowed to build a cheap, DIY ramshackle shack (in developed countries).

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