Question

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What programming languages will be around in 100 years?
What programming language will be most influential in five years from now?

Only with their thinking?
Just graphics and cute figures?
They'll teach how to program in kinder garden?

Answer 1

If Moore's Law maintains its pace then in 2080 computers will be 48,592,008,000 x times faster than todays machines (Running at about 145 exahertz). Similarly, according to Kryder's Law our storage capacity will be around 629,145,600 yottabytes (this is enough storage to hold the entire library of congress 69,175,290,300,000,000,000 times). Even if we are conservative in our numbers and knock off several naughts the specs of our machines will still be dumbfounding.

Computers will no longer be measured in their speed or storage capacity. There will simply be "computers". It would be an awkward question to ask how fast a machine was or how much it could hold because those kind of constraints aren't thought about any longer. Even a child's computer would be sufficiently fast enough to do nearly anything humans could throw at it, and it would have enough storage capacity to hold all of human knowledge with room to spare. The limitations of software will be entirely on our imagination and intelligence, not hardware.

Artificial Intelligence (Strong AI) will be in its nascent stage of life, but will still be at least some years off.

However, sufficiently advanced Weak AI will have already helped transform computing as we know it. This, more than anything, will probably be the hallmark achievement of mankind for some time. Similarly, Natural language processing will be a solved problem. Speaking to your computer will be the preferred method of interaction. On your car ride to work, asking your computer, "Will you please generate reports for me based on our companies performance over the last quarter in terms of product sales and give me estimates for the next two quarters based off current market information?" will be entirely normal.

Education will be entirely revolutionized by Weak AI teachers. Infinitely knowledgeable, infinitely patient, each AI teacher will work with students at their natural pace in a 1 on 1 setting. The intelligence bar for all children will go through the roof. Expect a hoard of creepy 6 year olds who know lambda calculus.

As far as programming, rather than program individual components and lines of software we will instead instruct our AI assistants of our requirements and how the systems should interact with each other. This will allow rapid creation of software for consumer consumption and break down the barriers of computers to non-technical people for many applications.

Building complex systems will still require programmers with advanced domain knowledge but our burden will be greatly reduced. The programming will be more like a spoken dialogue between the machine and the programmer, describing the system and it's individual components with questions being asked on both sides.

Because our code is entirely machine generated the amount of true "glitches" will be reduced to an extreme rarity. Instead, the primary source of "bugs" will be the result of mis-communication between the programmer and his AI assistant or logic bugs because of a misunderstanding about the problem on the programmers part.

The idea of a programmer huddled in front of a screen and keyboard in a cubicle will seem as quaint as a programmer using punch cards in the 70's.

Answer 2

Paul Graham has talked about exactly this: The Hundred-Year Language

Answer 3

There might have no need to program anymore.

Answer 4

Ignoring the possibility of a technological singularity, it is hard to deny that technology is increasing at a greater than linear rate. We are at least as far away, technologically speaking, from 2080 today as we are from 1000AD. I am more confident in saying that any prediction we make today will be wrong than I am in any prediction that could possibly be made.

Answer 5

it will likely be a formal specification language. Instead of indicating the "how", as we do today, we'll specify the "what". So instead of saying step by step how to implement a certain algorithm, we'll specify what the requirements for our program are, and the compiler will work out the most efficient algorithm automatically.

The spec language may or may not be text based. I do not believe we will ever over come the problem of linguistic ambiguity. Even with a computer with an equal or greater intelligence to a human. Humans still misinterpret eachother. Computers will always take what we say painfully literally. this is an anavoidable, but not necessarily intuitively obvious result of various inviolable premises we hold about the operation of a computer. But higher level, more intuitive ways to state a problem unambiguously exist.

I don't think that the star trek depiction of people programming holodecks is entirely far off. It will seem more obvious and intuitive, but computers will still make catastrophic errors based around the ambiguity of natural language.

The reason I think it seems that humans can understand eachother easily in a way that computers can't, is due to shared culture, and our shared understanding that we don't always say what we mean (sympathy), and our ability to (only occasionally) continuously clarify and disambiguate our meaning. Our ability to communicate with eachother is largely the result of the common shape of our bodies, perceptions, and our ability to imagine ourselves as other people (an ability we can see more clearly when we look at those who partially lack this ability- Autistic people and Aspergers people). This enables us to understand in an extremely intimate way, why someone else may be making a specific pattern of noises with their vocal mechanisms, and gesturing in a particular way with their faces and bodies.

We only derive meaning from these patterns of behavior by imagining what we would be thinking if we were doing those things. Computers lack human bodies, vocal mechanisms, and faces, and consequently any ability to sympathise with a human. Any attempt to make a computer truly understand us without making the computer into a human itself, will be largely fruitless.

Despite all that, human comprehension doesn't work quite as well as most of us imagine it does. Consider the challenge each of us have as programmers in determining the shape of a program that client requires. It doesn't happen instantaneously. A successful program is the result of continuous revision over the course of many weeks months and years. That revision process would be very challenging (impossible) to replace with an automatic process. We can better automate the repetitive work, but we will never be able to artificially generate a perfect sympathy for our intent, artistic vision, and personal/ethical needs.

Banking on a future AI is a bet that I wouldn't make, even if it were possible. We should think just as hard about what we would lose in such a proposition, as much as we think about what we would gain.

Answer 6

Unless there is a big breakthrough in AI I think programming will evolve into more big picture levels.

Perhaps they will program by putting together blocks of functionality instead of lines of code. I can see this happening now with web services.

It would be neat if programming evolved into a natural language where all we do is speak normally of what we want and computers/compilers do what is needed.

Although technology seems to be advancing fast it's not advancing as fast as people hope it to...

Answer 7

I can't tell if I'll be able to program next year. How could anyone possibly predict what my children or their children will do?

I do hope that "hydrogen car mechanic" appears on a hot jobs list in the near future, but I can't call that, either.

Answer 8

I'm hoping the language we use is English.

Nice conversational interfaces, with flawless semantic disambiguation.

The programs that we write will be largely generated from short descriptions we give, and then refined with successive corrections. But the number of corrections we need to give will be quite small, as the environment/shell will be so good at inferring what we want from what we say.

Oh, and flying cars. I was promised flying cars.

Answer 9

To expand on some of the comments, there is some fascinating science fiction on this subject, particularly the idea of a technological singularity.

My favorite author in this space is Charles Stross. His books Singularity Sky, Iron Sunrise, and Accelerando are incredibly fun, insightful, and thought-provoking.

Vernor Vinge is credited with introducing the concept in popular science and SF. Peter F. Hamilton deals with it in many of his books, which are also terrific.

Answer 10

Well, I'm pretty sure that there will be a demand for Cobol programmers... and probably some demand for Java... though C# will probably be replaced with some newer version of brand new Microsoft technology. ;)

Answer 11

We're so early in the evolution of computers/IT that what we're doing now will look hopelessly outdated in 70 years time. My guess is there will still be programmers, but many fewer than today. These uber-coders will work on the components - OS level resources that do 'everything'. The rest of us will glue together these components to make our own apps, or simply use apps that others have constructed - continuing the trend that we're already well into. Businesses used to have to write their own OS, as the hardware guys didn't provide one - and that used to make sense.

The dev environments will be so powerful that much of the drudge of coding will disappear - I'm thinking 3D spaces, data gloves, pull what you need together into your virtual desktop - represented as a head up 360 display, and let it work out how to interface/adapt itself to make sense of it all.

So it's likely that our Grandchildren will be what we consider users, not developers. The rise and rise of the developer caste will tail off over the next 20 years. Being able to conceptualise in 3D, great spacial awareness, and the ability to sculpt will be useful skills in the future. Not an understanding of binary and threading issues that we have today.

Answer 12

Even more poorly than developers do today. It's always easier to throw more hardware at a problem than it is to optimize the code causing it. And hardware, of course, gets faster and faster.

Answer 13

With the current ECO focus of our society right now, our computers will probably power themselves with the sound waves of our voice, and walking, because everyone will probably have a computer on them all day, like our cellphones but thousands of times more powerful than our current desktops.

However programming will probably be done in C!#$%&++-#$ on Sigma-Emacs and Vimmm editors, with keyboards that emit emulated clicking sounds.

Answer 14

here's a video titled "Self improving AI", about the directions compilers may take in the future, and the implications of such. It's well worth watching.

http://video.google.com/videoplay?docid=-3008925388275783572

Answer 15

The critical part of programming is taking a non-rigorous specification and turning it into some sort of rigorous notation that is computer-readable. Over the past sixty years or so, we've seen the rigorous notation go from plugboards to binary low-level instructions to text-based low-level instructions to modern languages, and the rigorous computer-readable notation has become a lot easier to use (as well as being less tied into the details of the hardware). Since we're projecting about seventy years in the future, we can get insight from this trend.

We can also expect hardware to change. We're already seeing multiple core computers becoming standard; any decent system from Dell nowadays will have more than one core. As we push for better performance without being able to increase clock speed proportionately, the hardware will become more esoteric and harder to comprehend. (I knew what was going on in my old TRS-80. I don't understand what all is going on in my current laptop.)

C-type languages will be obsolete. C has been called, with justification, a portable assembler language. As languages will get away from hardware details, and hardware details change from the current models, languages like C and C++ and C# and Java will become increasingly irrelevant. The languages we use now that are likely to survive are those that are farther from the machine details, like Lisp and Prolog and SQL and doubtless others I'm less familiar with.

I think programs will continue to be expressed as large blocks of text, although at least presented differently. I don't know of any way to express lots of specific information that's better than text, and really don't expect one in the next century. Knuth's "literate programming" may turn out to be prophetic, or a dead end, but I'd say a wiki is a better model for future programs than a book.

I don't anticipate the demand for programming to get less over the next century, although software will get even more ubiquitous. Shrinkwrap software is all well and good, but there will be a market for differences, and there's a fine line between a configurable package and a programming language.

I/O devices will be greatly advanced, and direct brain connections will be quite possible. Whether they are widely used depends more on society than technology.

All of my speculation could be derailed by major advances in Strong AI, so that the machines become better at accepting vague requirements than the humans. I don't expect it, and I can't predict on its basis.

Answer 16

In my opinion the amount of information can be represented as a sphere and the perception of inovation or even the impact on daily life is like its diameter. For each expansion of diameter you need way greater expansion of cubature. Therefore year 2080 will be less inovative in comparison with the progress between 1928 - 2008. There will be well paid java gurus maintaining legacy systems and nobodies computer would be clever enough to be compiler for his specification...