More Trouble with Programming

The trouble with (many things including) programming:  that we assume without a second thought that our leading innovators will be arrogant enough to directly answer a question like:  "What will be the next big conceptual shift?"

Seems more reasonable to ask for speculation about possible future developments.  Could/should C++ be adapted for use with programmable logic devices (FPGAs, CPLDs)?  Suppose that (as a consolation prizes for lack of faster clock speeds) CPU makers start including integrated indirect and/or associative lookup logic.  Might that result in languages like SmallTalk, eiffel being viable alternatives to C++ in more cases?

Subroutines, libraries, O-O, generic programming are all capabilities for code reuse.  They do not obsolete or replace each other.  All of these have been around for a while.  It was compartively easy to think up these techniques, the hard part was getting them all in one low-overhead programming language.  Unless the chip makers force the machine model to change, it's hard to see any upcoming major dramatic changes or additions to C++.

I think a critical distinction to make when discussing languages is whether or not they are what I call complete.

A complete language is one whose compiler can be written in the language, an incomplete one requires an interpreter written in a complete language.

Once you make this distinction, you can clearly see that the complete languages are going to be more complex and harder to use, but absolutely necessary. The incomplete ones will be considerably more numerous because there are a lot of different things that can be removed, resulting in many of the special-purpose languages we see today.

Well I started my career before the C++ appeared in public. I've learnt C and then followed all the incarnations of C++ and actually tried in real life everything that was introduced in C++ in medium and big projects (even making compilers and linkers with more or less C++) and there are some points which I believe that Stroustrup got wrong (since I already mentioned it, I believe it's better using less C++ when writing a compiler then more). Specifically, following Stroustrup's statements are just wrong:

"Another reason is that organizations prefer interfaces that are in the C/C++ subset so that they can support both languages with a single effort. This leads to a constant pressure on users not to use the most powerful C++ features and to myths about why they should be used "carefully," "infrequently," or "by experts only.""

1) C++ as it now exists, is really better to be used "carefully". It's the nature of it. The "abstraction" and "separation" C++ promises breaks as soon as you want to have something like a DLL. And there I don't mean "Windows DLL" but just a concept of "something" which should be compiled and used separately. When you export only structures and C functions, you can do much better then when you start to export classes. I don't want to even mention the nightmares of exporting classes which use STL. It's not that it's impossible to do that initially, it's the maintenance nightmare afterwards that will kill you.

2) Whoever uses C++ exceptions more than in some very extreme situations, (or to handle the exceptions of some other piece of software who unwisely introduced it) is doomed just to make the problems for himself, getting no gain, just pain.  Exceptions were introduced because the constructors work as they do, not separating allocation and construction and not being able to return errors. And then the hell break loose. Exceptions introduce unpredictability of the worst order. In fact, if you want to be sane, for most thing you do, much safer method is to separate the allocation and construction, constructing things with separate functions which can return error codes -- and that can be done with the "old" C equally well.

The most of the gain from a lot of C++ "features" went to "experts" and "consultants" who were to explain to to the masses how to use latest and greatest (earning from the "expertize") when the users were better off not using these at all.

There you have it. When you often have to avoid doing much in constructors and destructors, avoid C++ exceptions, avoid classes as such and particularly STL when you want to have a separately compiled library to get things safely done, what's left? I consider C++ as often useful syntactic sugar for the pieces of code that don't have to be exported (luckily there's enough such places too) but that's about it.

BS has answered many criticisms of C++ simply by saying that most people shouldn't use it.  It designed for maximum freedom and expression and requires specialized skill to operate.  I agree, we need languages that offer specialized abilities for special programmers.  But where I take issue is where BS claims that we have highly specialized and skilled people as bankers and lawyers and what not.  Likewise, we need skilled programmers and that amateurs should not program.  Seems like a bad idea according to his own principle and argument:
For someone who is most specialized at finance or law, time spent learning how to be a specialist at programming trades off with their ability to learn how to be specialist in finance or law.  Likewise, the specialist in programming may not know all the nuances of finance and may not create the perfect program for the financial specialist.  If the laity could program, so could those overspecialized in other areas.  They could create applications custom tailored to their specialized knowledge in the field that goes beyond the functions of a multi-purpose one size fits all program.  But this would be vision of the user knowing best what the user wants instead of the specialist programmer...seems like there should be some room for both.  Hopefully Simonyi in "anything you can do, I can do meta" will help create that meeting place. 

BS's vision of programming is dismal as well as problematic.  If the specialist programmers aren't cutting it now, what incentive is their for change?  Programmers getting smarter won't happen magically, so what will make them do the work.  Maybe we just need to pay a higher price for a new set of higher quality programs.  These of course will have their own new compatibility issues with old programs, and issues with proprietary file formats, but...essentially people will have to pay more and hope that the new programs won't introduce any new bugs or complications that add additional cost to the already high price justified by their higher functionality.  If the specialists keep the system running kudos to them, and people should always try to excel in their field, but if many people can cut out the middleman: they will...question is when will someone finally tap into that market and who?

'Generality' is something BS takes very seriously in guiding the develpmenet/evolution of C++. This is also the hinderance/barrier in getting across certain aspect of the language. In particular, when people criticise C++, they usually mention something that the language does not do or support. As I said else where, understanding the design goals behind C++ seems to be a pre-requisite in understanding C++ itself. One other fundamental concept behind C++ is the concept of generality and BS talks about this in most of his writtings and interviews. Howevr, the importance of this concept maybe lost for people without a rigorous mathematical background.

BS seems to be encouraging the follwoing approach when designing/coding application: with a specific well understood problem to solve, you step back and consider the space in which that problem exist. Then design a solution of which the case in point is 'a' solution. While mathematician may easily understand, it maybe a little difficult for lots.  This approach requires training on its own.