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Dear members of Stack Overflow.

I have been thinking about computer science concepts and programming language design for quite some time now.

After all this thinking, I've come to a conclusion that all programming languages and their standards never go further than allow comfortable control of memory, whatever comfortable means to the designers.

Memory management is powerful, it can give a lot of control to do very interesting things, and allowing us to think of things in more than just 0s and 1s where all data structures are arbitrary and interchangeable (1 = true = lamp is on = is legal = not zero = ...).

This is great and all, but this is no longer satisfactory. We can think up of anything we want in our heads, represent a problem in uncountably many ways and actually get it solved in ways that make sense to a particular domain.

Recently, I noticed that for quite a long time now, programming languages have been tought in terms of abstractions over hardware architectures, assemblers, compilers, and so on. So naturally, I would be lead to believe that if I was a master programmer, I could make my computer do whatever I want it to do.

This however, is not the case. Programming languages emphasize memory, nothing else. If you want to do IO, you have to use an IO library, which is an abstraction preventing you from understanding how to control IO. If you want to control keyboards or mice, you have to use drivers or GUI libraries, which also prevent you from understanding how to control keyboards and mice, as everything you are trying to demonstrate, is already pre-demonstrated.

This is a problem because modern problems are complex and critical. For instance, my friend could ask me to make a program to change all white pixels on his screen to black, or make a program which sets a particular pixel another color, or even iterate over all cells of memory to see what is stored in them.

All the problems above cannot be solved in assembly, not C, nor C++, the operating system prevents all access to these features to ensure security. This security comes at a cost of increasing amount of problems that can no longer be easily solved, too expensive to solve, or simply prevent further progress in technology.

Programming is becoming an art similar to the analogy of making your own asperin, you can probably make it after a lot of years of studying and experimenting, but no way are you going to try it yourself. This is a problem because more and more people are learning how to make asperin, then countless of systems become completely unusable, or absolutely unsafe.

All courses I took for computer science in University of Ryerson are abstract, abstraction is encouraged, it is considered a magic bullet. If everything is done for you, you will not understand how it works, and worse, you cannot create anything new that is not composed of those orthogonal features. Worse, much of these orthogonal features are either not fully portable, nor particularly behave well when interact with features of external orthogonal features.

If you have a hammer, it does not mean you can solve every problem. This is well understood, but I want to make a stronger statement and say that: If you have a toolbox, it does not mean you can solve every problem. Even if the toolbox contains every tool imaginable, you can still imagine of a new tool that does something better than all other tools can. In fact, there are uncountably many of such tools, and this is a problem because your project quickly becomes cluttered with a thousand of tools which you made out of pre-existing tools, eventually creating a supertool which can do everything the library provides, yet not creating anything new, as all of these features do not actually help make your life easier, instead create more things people have to learn to use when adapting to your project.

So, the question is: Does portability really exist? Can one really make a program that displays a red pixel at 2,2 on a screen that works on all computers that support that programming language? Is it possible to change console character at 5,5 to green on any system that has a console?

Anytime I see these questions, I end up turtling back in the idea that these features are only achievable through native APIs and existing libraries which only support limited platforms and do not promise expanding, worse you do not know how to expand the support to other platforms, if such need becomes apparent.

This is a big problem, I can't even make a pong game without thinking "Oh, what if I want this program to work on an operating system 200 years from now simply by relying on features of the programming language"

The task above seems impossible, programming languages do not dictate that the API designers of "Real Operating Systems" to be forced to fill in the blanks in a C library. Thus we are stuck with features that have not changed since what, 10 years ago?

Abstraction is not the solution to the future, the future is about control of very confusing an seemingly wrong and unorthodox problems.

So again, does portability really exist? Is is it just pushed as an unachievable ideal which tries making things easier by throwing away vital information and providing a native API which "works now"? What is the case?


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closed as not constructive by Hovercraft Full Of Eels, mvds, Doorknob, Alexey Frunze, Shai Feb 10 '13 at 6:51

As it currently stands, this question is not a good fit for our Q&A format. We expect answers to be supported by facts, references, or expertise, but this question will likely solicit debate, arguments, polling, or extended discussion. If you feel that this question can be improved and possibly reopened, visit the help center for guidance. If this question can be reworded to fit the rules in the help center, please edit the question.

This is not a bad question, but I fear that it's not a good fit for stackoverflow as it "will likely solicit debate, arguments, polling, or extended discussion." I've no choice but to vote to close it. –  Hovercraft Full Of Eels Feb 10 '13 at 3:08
I feel this is a very interesting topic to discuss, and I tried to keep it from being particularly biased against anything to avoid flaming. Although it is not perfect, I do not see a reason to have it closed yet, as I'd like to hear some opinions on this topic. –  Dmitry Feb 10 '13 at 3:13
Dmitry: I agree that your question is interesting and will likely engender a nice discussion, but if you read the FAQ's for this site, "nice discussions" are not what this place is for, but rather it's for solving specific answerable programming questions. You will probably want to close this question and take your discussion elsewhere. –  Hovercraft Full Of Eels Feb 10 '13 at 3:19
Closevoted also. This site is not for discussions. –  Doorknob Feb 10 '13 at 3:22
I would consider it but I am not sure how to close it. It does appear lacking in direction. –  Dmitry Feb 10 '13 at 3:23

2 Answers 2

Your "question" is quite broad, but to answer your direct question about writing truly "portable" computer programs: Yes and No.

Yes in the sense that there are languages and abstractions (I know...) that allow you to do just that. And by portable, I mean "runs on the majority of systems". But within reason. No one can predict the future, and things change, and different systems have different requirements (I require a graphics card and monitor to view Stack Overflow; my webserver requires neither of these).

Some examples:

  • NASA had trouble reading data from an old tape from the Viking Mars Landing because no one used that type of media anymore (see Digital dark age)
  • I just found a box of 3.5" floppy disks that I can't read because I don't have one of those drives anymore (eh, if I haven't looked at the data in the past 10 years, it's probably not that important to me)
  • There are no guarantees that train cars today will run on the rails of tomorrow - Over the years, the "track gauge" has changed (and is actually different in other parts of the world).

But, for example, Java runs on most desktop and server systems, and HTML runs on almost everything with a display these days. Even C (which runs nearly EVERYWHERE) has libraries that allow you to write portable graphical applications (since one of your examples included turning pixels on and off).

No you can't really write a portable application. Ever. And for good reason: All computers are different. Different hardware and software architectures are designed and implemented differently. If they weren't...I can't imagine that world. But we can do a pretty good job (look at HTML, Java and C).

On my Linux system, I could probably write a program to turn a specific pixel on or off. I'd have to know a lot about how my graphics driver worked, or possibly just know how the memory addresses and layout for my displays worked, and write some bytes to /dev/mem or something like that. But that wouldn't work on all systems. You might be running different operating system that doesn't allow direct access to that memory. Is that a problem? some people might consider that ability a serious security vulnerability). Or you might have a different video card that handles these things differently. Again, this sounds perfectly reasonable to me, maybe your video card's manufacturer found a more efficient way to handle memory usage (and maybe that's how my video card will do it next year, but for this year it's stuck with old technology).

So what's the moral here?

  • You can write portable programs, to a limited degree (HTML, Java, C, Perl, Python, Ruby, and that's just the list of the languages I've used this month)
  • No program is portable to all systems (not every system has a Java runtime ported to it, and even for C, not all systems have all the same features like disks, displays or keyboards)
  • Different systems architectures are different, and that's a good thing. Just look at the big/little endian debates (hint: some systems can solve certain types of problems faster on one over the other)
  • Systems evolve over time, and something that works today may not work tomorrow. That's how innovation happens

One other comment about something you said regarding abstractions: They are important. In fact, abstractions might be the single most important tool that we as humans possess. That said, it's important (sometimes) to understand things at other levels of abstractions. Just because I spend most of my day writing Java applications, doesn't mean that I don't understand how C allocates memory, how CPU registers work, how to build logic gates and half/full adders, etc...

But if I had to worry about what was going to happen to the CPU registers every time I used i++, I'd drive myself mad.

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Thanks for your response. –  Dmitry Feb 10 '13 at 3:36

Portability does exist in software. It depends a lot on the software architectural design which is the basis for implementation. To achieve portability, there are multiple aspects of software design, but I would like to highlight 3 important portions.

Interfaces: This is a very critical and important portion of software coding. As long as interfaces are standard and don't keep changing and are scalable, you can have a good software stack.

Hardware Abstraction Layer: This layer provides an uniform interface for your software to interact with hardware. When you port the code from one platform to another, the main focus would be to modify the HAL layer.

OS Abstraction: Similar to hardware abstraction, this layer provides the abstraction for drivers, message handling and other portions of OS.

As long as a framework has sufficient support for these concepts, the software could be portable across platforms.

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Interfaces and layers are portable, but they appear so limited. After so many years, there is still no sight of a standard GUI library, or a standard threading library. All standards are still bound to hardware being used for the most part. If you are doing anything outside memory, issues start popping up... –  Dmitry Feb 10 '13 at 3:17
GUI is an interesting topic, which is evolving every second as we speak. As the man-machine interaction evolves so rapidly, it is very difficult to characterize a GUI and put a model around. What may be seamless for one may be difficult for other. Hence, putting a definitive model for such a complex and evolving area is an extremely difficult task. –  Ganesh Feb 10 '13 at 3:21
GUIs in particular are extremely hard to standardize, as some systems don't even have one. I do work on IBM mainframes, where you just don't want to play pong, or draw red and green pixels. You do want it to handle TB size databases and 100k network connections, which is hard to do on your cell phone. You can still use the same programming languages though, just because this isn't in the langage standard. –  Bo Persson Feb 10 '13 at 14:18

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