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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 problems do 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

Many good questions generate some degree of opinion based on expert experience, but answers to this question will tend to be almost entirely based on opinions, rather than facts, references, or specific expertise.If this question can be reworded to fit the rules in the help center, please edit the question.

53 Answers 53

A lot of people seem to be suggesting that software would be more reliable if it had fewer features. After all, most users only use a small subset of the features of many applications. The problem lies in the fact that different users use a different subset of features.

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People often draw the parallels between software engineering, which they see as full of problems, and other forms of engineering, which they see as not so problematic.

Your parallel between housing development and software development is not so good for several reasons:

  • You maintain your house day in day, repair it, upgrade it and etc.
  • Your house was built in one spot and was designed for that spot.
  • Your house has much less complex functionality then the average product
  • House building has strict predetermined calculations/rules/regulations
  • House building has been around for thousands of years, so they have wrinkled out the bugs

But the biggest difference between software engineering and other types of engineering is that they have been basically using TTD while the software engineering has so far been heavily on the trail & error process.

I say they use TTD since they have plans, prototypes and tests for those prototypes before going in to massive production and with all of that they still tend to have problems here and there like the leaking faucet or and oil leak from your car caused by poor manufacturing.

My point being that other engineering disciplines also result in bugs and problems but the main difference is that they don't result in a big red X mark with an error description you can't understand.

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Look at the expectations for software. All the if's and buts. Here would be the demands on the home:

  • I want the bedroom to be 20' X 20' unless I was asleep and need to go to the bathroom, then I want the bedroom to shrink so the bathroom is closer and all the furniture doesn't get crusehd.
  • During a tornado, get rid of all the windows.
  • The garage should have a turntable big enough to rotate a Hummer in .2 seconds.
  • the walls should be able to change colors based on the 'skin' I choose
  • make it scalable, I may want to invite all my facebook friends
  • adjust shower temp when toilet is flushed
  • the plumbing should never break since 'nothing has changed'
  • TVs, newspapers and magazines shouldn't show advertising if I pay my mortgage

Oh, and try to do as much of this as you can with open source building materials.

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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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  • 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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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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Houses have time-proven blueprints. There's thousands of houses each exactly the same as the last.

No two pieces of software are the same. The only reason people write software is to do something new or different.

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The quality of a product depens greatly on your expectations of it. For instance, I believe there are no good javascript debuggers on the market. Non of them are capable of what I want them to do.

Other people will say the current debuggers are good, simply because they're not even considering the possibilty that something more might be needed.

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  1. software development is difficult and time-consuming
  2. software developers are not interchangable cogs
  3. quality takes time
  4. you get what you pay for

Ignoring one or more of the points above leads to poor software quality, every time, guaranteed. Though this may not cover all incidents of poor software quality, but I suspect that it chracterizes the vast majority of them!

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Consider this:

  1. Software is very very difficult to inspect compared to a house or a car. Unlike the latter, you just can't glance over a piece of code and spot defects. You have to read and comprehend it.
  2. Software is usually many times more complex than other engineering artifacts, like cars. That's because it is infinitely more flexible. In physical objects, you hit a limit on complexity very early for reasons like manufacturablity, purchasing cost, shipping cost etc. In software, these constraints either don't apply, or do so mildly if at all.
  3. Software, once created, continues to change. Cars and houses once manufatured stay largely the same. But software artifacts can practically morph into something else in a few year's time. And every change has a potential to break existing funcationality, and mostly it does.

In other words, engineering software is much harder than engineering a car or a house.

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In software engineering it's possible to put the dunny on the ceiling.

GeneralFushException: Duck!
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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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Software has to be sold to managers and/or regular people. If you're regular person you can tell good house from bad one, or working TV from broken one. However, non-tech person can't distinguish between good software and bad software.

When the ones who pay for the product can't tell the difference, the result drifts to the bottom of the pool in terms of quality.

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It's hard. There are X number of ways to solving many issues. Programmers rely on a lot of third party libraries, which will abstract away from you what is really going on.

When doing web development you have many browsers and potential settings to worry about. Desktop development has different operating systems, and settings to worry about.

People get hired based off answering questions and not writing code. There was a member on my team on a very large, highly visible web application, and she had no idea how to write code. She lasted six months. She never would have made it past the interview if someone would have simply had her write a reverse string method on a white board.

Also, the ever evolving nature of technology, means theres always something new and amazing around the corner. I'm not expert, but I imagine there are only a few ways to build a skyscraper or a highway. There are tons of different ways to build a web application.

I'd also highly recommend reading Joel Spolsky's awesome article about Leaky Abstractions

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I think the poster's answers pretty much cover it.

Two things I'd add:

  1. Software moves and changes so rapidly, it's hard for developers to stay focused on quality.

  2. The legal system hasn't caught up to the software industry yet - when you'll be able to recover damages for crappy software like you can for a crappy car or house, and when software makers are forced to WARRANTY their products instead of filling their EULA with every sort of disclaimer imaginable, quality will undoubtedly improve...

Do I see things improving? They've already improved a great deal, and will continue to improve as users grow more sophisticated and the legal system catches up, forcing QC to become more important than feature bloat.

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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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For me its the developers, that are the source of low quality software.

Like the early ages of craftmanship, developing software is handmaking software. Most developers tend to pretend, to do everything by hand, build it on their own. But this costs time, and time is money and money makes the world go round.

Projects today have to be fast done and cheap - that bites with the developers view.

I think software developing needs to get to the next phase, the industrial revolution.

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Bugs are a part of the uncertainty and incomplete requirements that tends to happen with IT projects. Software won't work because as someone sees the program running, then she or he will think of, "Well, it should also do this, that and this other thing here," which while it can be done isn't what was originally requested. To take the house example a bit further, software may be viewed as the paint on the walls and furniture in the house which can easily be changed or moved which can lead to some people not being happy with their home since it is missing something that they want.

I don't see software quality advancing due simply to how poorly thought out various IT projects tend to be set up. While in the house things like doorways and floors are nailed down pretty much, there aren't similar things with software as there are usually dozens of different hardware configurations that will work with the software, but what is optimal and how can this be determined based on how a given company will use the servers that perform a set of tasks related to a specific process like Resource Planning or Customer Service.

Software development methodologies like Agile and Scrum exist as a way to try to give someone something close to what they want and then allowing changes that improve the product done repeatedly. So, for example as a house is being built, someone wouldn't change where the staircases go or where the windows will be yet in software these kinds of changes are likely to be common where the UI, being as flexible as it is, has to get refined over many many tries and even then there is a question of what point do you call it "done"?

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I disagree. The state of software development is exactly the way your house example is like. On first glance, everything in the house looks fine (maybe even work fine). Simple stuff works without a hitch. But when a really big winds come, some houses lose its roof. Better houses suffers minor damage but still live on. Like software does. On first glance, everything in the software looks fine (maybe even work fine). But when you pushed it to limit (For a web server, gives it a high load testing). Some softwares crash altogether. Better software do weird things but still works fine.

Some houses works fine during the first few years. However, as time goes by, things start to break. Like software does. Most software works fine during the first few years. However, as time goes by, new drivers gets installed, new OS patches got patched, new applications gets installed, some (bad) software simply stops working. Like for examaple some software designed for Windows XP simply wouldn't run in Windows 7.

To conclude, yes, there is no perfect software like there is perfect house. Most of the time, it depends on the amount of work that is being done to create the software/house. Lots of time and lots of money it's most certainly going to be good. Done hastily and cheaply it's most certainly going to be bad. Well, just like a house.

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Well, my belief is that it's a matter of changing from Monolithic Apps to Modular Apps by using something similar to the Lego Process which can be checked out here

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I have to disagree with your rant. Considering the dynamic nature of software, I think it is quite amazing that stuff works as good as it does. Just look at the thousands of different hardware windows has to support.

That would be like building the same house design in a thousand different types of soil, elevations, mountains, water, and it has to keep from collapsing.

And to use another analogy, in a computer system, unlike in the real world, the "laws of physics" change based on the operating system you are building in. Further, sometimes these "laws of physics" can also be buggy / inconsistent, causing your software to behave in an unexpected way.

In the real world you would never find that north and south pole suddenly flips whenever the wind happens to blow a certain way in combination with the sun being in a certain level in the sky.

Things like this happen all the time in software, because of the extreme dynamic nature and complexity, when large systems interact with each other it is nearly impossible to predict all of the potential points of failure.

Because each system may have "physics" which behave very differently. In the real world there is only one law of physics and it behaves consistently, it can be accurately measured, and allows us to use mathematics to predict future behavior in various scenarios.

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Software is a custom designed product, not a manufactured product. Sure, every copy of a software is manufactured, but the actual software is pretty much custom written for each application. So, the issue of quality is much more difficult than say for cars where the same model is created millions of times, during which period the bugs are worked out.

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The problem with the Software Quality 'movement' is that it used manufacturing as its basis. The issue with verifying (inspecting) the quality of software during production is that (compared to its physical manufactured counter part) it is invisible. Over the years schemes of Software Quality Characteristics (such as the FURPS model) have been devised to identify and measure desired characteristics during and just after software production. The search for an elusive set of measurable quality characteristics continues today (with ISO 9126 being recently released), in an attempt to quantify a medium that is non-physical, in order to control and measure its overall quality (or fitness for purpose).

If we look to Agile processes, that is short 10 day sprints, we are moving away from the manufacturing analogies and taking advantage of the ability to change software quickly (as opposed to fixing a physical part). I believe this direction, rather than trying to retrofit the manufacturing QA\QC model, will yield more 'quality' in software although ultimately the essential difficulties of the software medium (invisible) will remain and we will continue to look for more useful characterization schemes and delivery models to produce a better result.

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