@ChrisBecke Yes there is. He wanted as little space and time overhead as possible, so the abstractions are affordable. Nobody would use std::array<T, n> if it wasn't exactly as efficient as good old T[n].
But in principle, I share your sentiment. My students were always very surprised when they tried to turn in their first homework, and I didn't even look at their program's output, but wanted to see their source code. ("I'm sure you can turn in a program with output as expected. I want to see how you did it.) Apparently none of their professors had ever wanted to see their code.
For their first assignment, the first 60% didn't manage to get their program approved by me on first try. (The other 40% had been watching and learned.) For later assignments this usually became better.
@AlfPSteinbach Double or triple, I still don't know what it means.
@ChrisBecke That must be one of the stupidest coercions ever. It is responsible for the common false assumption that arrays and pointers are basically the same thing.
the design of new, delete, and class are where I pin the problems. the rest of the syntactical sugar thats now necessary to write correct code follow on from those core issues
After modules, the thing I would most like to see would be more full support for covariance. Not necessarily arguments (we've done without that successfully) but covariant method implementations. I think it could be fused with support for generic const/non-const implementations.
I think that I spend so much time faffing around making my code const-correct, and it pretty much never happens that I actually declare something as const
@DeadMG "It's difficult to tell what is being asked here. This question is ambiguous, vague, incomplete, overly broad, or rhetorical and cannot be reasonably answered in its current form."
@DeadMG What, thinking whether a method should alter the object it's invoked on and typing const (plus, maybe, a space) is too long? Hell, how fast to you cook up your methods' implementations, that this is relevant?
@DeadMG Even if you never use a const object, const is still useful! For example, it can tell you "this function will not modify its input". How great is that?
@DeadMG But that's in a way fallacious argument, because if there was no const, presumably there would be no rule forbidding temp object to bind to non-const ref.
I don't want to give the impression that I am not interested in what you say, because, well, else I wouldn't be here :P
but as soon as you accept that rvalue references are a better solution than const references to rvalues, then you have to start wondering, where else is const hindering rather than helping?
@DeadMG I would really like to read in detail your thoughts about const, rvalue, reference and how it could be done better. Maybe you should have asked a question with all three of these concepts thrown into the pot.
What is the design rationale behind allowing this
const Foo& a = function_returning_Foo_by_value();
but not this
Foo& a = function_returning_Foo_by_value();
?
What could possible go wrong in the second line (which would not already go wrong in the first line)?
@Fred: the canonical example is void incr( unsigned& v ) { ++v }, called with int x = 41; incr( x ); But I think could be handled by not creating temporary in this case, even though temporary could bind to ref to non-const. Perhaps one should check what Visual C++ does, since it generally allows binding temp to ref to non-const.
@Alf: That program's bad behaviour isn't solved by making rvalues bind only to const references, the bad behaviour is solved by making the rvalue not bind to a normal lvalue reference
wtf is the use of: namespace::objectptr->object.method, when each of the ::, -> and . is essentially doing the same thing. looking the name up in the next namespace.
The thing is, when you have voted to close a question, and that question gets re-opened, you can't vote to close again. (And I don't think you can vote to re-open either.)
Hmmm. I just tried assigning an set<int, std::greater<int> >::iterator object to an set<int, std::less<int> >::iterator object. It doesn't seem to work: codepad.org/Z9kZmwn9
4.1 and 4.2 are currently <= 2007-11-01, 4.3 <= 2008-03-23, 4.4 <= 2009-04-19, and 4.5 <= 2010-11-08. Unless you replace the implementation without changing/updating the compiler. Maybe there's a better way to check this.. dunno.
I've confirmed the behavior with TDM MinGW g++ 4.4.1.
It's a g++ bug, please report it.
Cheers & hth.,
I would like to know of the issues with const in C++ and C++0x.
What is the design rationale behind allowing this
const Foo& a = function_returning_Foo_by_value();
but not this
Foo& a = function_returning_Foo_by_value();
?
What could possible go wrong in the second line (which would not already go wrong in the first line)?
