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?