Considering the current sad state of our computer programs, software development is clearly still a black art, and cannot yet be called an engineering discipline. -- Bill Clinton, former President of the United States
no idea on when that's from, but it's interesting to see that view from an outsider
at least, I think he doesn't program... :)
The problem with using C++ ... is that there's already a strong tendency in the language to require you to know everything before you can do anything. -- Larry Wall
but I really, really wish there was a language that fixed c++'s faults that I also liked. python comes really close in many ways, but it's just not suitable sometimes
it took two friends to sit down with me and hash over (which required me to first verbalize) why that seemed wrong in order for me to see it really wasn't a problem
@RonaldLandheerCieslak I have since seen a quote from, I think, S. Lott (who is active on SO) along the lines of "properly indented code in other languages may or may not work, but in Python, it always does what it looks like it does"
or maybe it was something like "everyone, in any language, tells you to at least get your indentation correct to make your code readable. you can't avoid that aspect of readability in Python"
"Most folks who beef about whitespace are meticulous indenters in Java or C++. I don't know why they complain about Python when they already indent perfectly in other languages."
I want to add a class (or a struct) of which there is one instance and every object should have access to it. It's for storing debug data, what's the way to do it?
@Robik For a simple pong game I would use something like openframeworks or cinder. In this case you need 2d geometry and vectors. So I would write or use some vector classes and overload the operators you need. Then you can try to implement simple geometrical stuff like specular reflection..
@Robik I have much stuff to code, but I never wrote a pong game myself, will probably do it when I have time.
@Robik Never heard of that before, but looks useful.. Well personally I first learned plain C and then C++.. but some basics of OOP and maybe operator overloading for the vectors should be enough..
@DeadMG Disagree DirectX is quite difficult for a beginner.. if you want to show somebody how some algorithm works you can do that with a plain simple programming language/framework like processing. It's algorithmic thinking that beginners should learn I think.
Hello,
I've been reading some OSS code lately and stumbled upon this peculiar piece:
class Foo { ..... };
void bar() {
Foo x;
Foo *y=new Foo();
x=(const Foo &) y;
}
For the life of me I can't find documentation about the behavior of casting a pointer to a const reference. Is the...
@Xeo I didn't even know your code would compile if you cast a pointer to a reference
@JohannesSchaublitb we can't, not without an admin's help. SO won't let you turn a tag into a synonym of a less-used tag, and there are a lot more C++0x questions than C++11 ones. I thought about posting on meta, but figured we might as well wait a few months until C++11 is 100% official
Ok, this is the first question I've asked and I didn't know you couldn't answer your own question.
Answer:
March 25, 2011. :-) I'm not kidding, it's official. Well, at least as far as the committee is concerned.
Interestingly, the misread code could still be possible, if Foo has a non-explicit constructor that takes a Foo* pointer.
#include <iostream>
class Foo{
public:
Foo() {}
Foo(Foo*) { std::cout << "Aha!\n"; }
};
int main(){
Foo* pf = new Foo;
Foo f = (const Foo&)pf;
st...
@jalf a C-style cast is the first that succeeds out of some ordering (I forget the order) of static_cast, const_cast, reinterpret_cast, const_cast+static_cast, const_cast+reinterpret_cast
reinterpret_cast is implementation-defined, and I could see it allowing X* to X&
@jalf at worst, you can try each cast allowed by C-style casts and see which your compiler accepts; iirc there's only one loop hole C-style casts get through that new style casts can't
the (c++0x, only one I have at hand) standard says, re. reinterpret-cast, "Conversions that can be performed explicitly using reinterpret_cast are listed below. No other conversion can be performed explicitly using reinterpret_cast. So it's not implementation-defined whether a conversion is allowed under reinterpret_cast
@FredNurk what is that loophole again, btw? I've been told a million times, and I keep forgetting it
In the test case, I'm casting from a pointer type to a reference type. The equivalence you mentioned just says that if you can convert from U* to V* then you can also convert from U& to V&. It doesn't say you can convert from U* to U&, which is what happens here
Originally being the topic of this question, it emerged that the OP just overlooked the dereference. Meanwhile, this answer got me and some others thinking - why is it allowed to cast a pointer to a reference with a C-style cast or reinterpret_cast?
// disregard the leak please.
int main(){
...