@Xeo: You could implement a std::set of thunk objects in the exception state. Remove a thunk and run it until it throws another thunk, which you put into the pool. Then grab the next one from the pool.
Quick question: I'm an "ok" programmer. Got my BS in CS a couple of years ago. I know about control structures and OO methodologies. I never really learned C, always done Java. I want to learn C++ so I can to more "close to the metal" stuff. Should I focus on really learning C first, and THEN C++, or can I just get a good book on C++ and go from there?
I know practically nothing about the relationship of C to C++ other than the great Wikipedia says "C++ is a superset of C". What is their relationship?
@PotatoSwatter: Except nobody is forcing you to use any of the abstractions that C++ offers
especially the run-time abstractions
the tight resources of the execution machine is an excellent reason to use C++, since templates will offer compile-time evaluation where C would have to offer run-time
@CatPlusPlus Meh. There isn't that much people using the really innovative features of C99 so practically you're going to use C89 minus the horrible declarations at block start. If you mean the library additions then it's probably a bad idea to use any kind of C without nice libraries on the side.
@CatPlusPlus I wrote my own stdlib for C++ when I was just getting started in it… it worked with Apple MrCpp and Metrowerks C++… I had no idea that people didn't just do that.
This question has historical significance, but is not a good example of an appropriate question. Read and learn from this post, but please do not use it as evidence that you can ask similar questions.
See the FAQ for more info.
Provide QUALITY books and an approximate skill level. Add ...
@LucDanton: What on earth is that? I've been bitched at by many people for suggesting that C sucks, and none of them have ever put forward anything even remotely like that
Consider the following class, with the inner struct Y being used as a type, eg. in templates, later on:
template<int I>
class X{
template<class T1>
struct Y{};
template<class T1, class T2>
struct Y{};
};
Now, this example will obviously not compile, with the error th...
@CatPlusPlus It's a box with "01F685" inside for me. But that looks about as much to me like a train engine as the train looks like snowmen, rather than ladybugs.
template<> tells the compiler that a template specialization follows, specifically a full specialization. Normally, class A would have to look something like this:
template<class T>
class A{
// general implementation
};
template<>
class A<int>{
// special implementat...
A sudden chance to earn some easy rep showed its face.
I'm guessing your usage of shared_from_this() is wrong.
It should be used in a class as follows:
class Y: public enable_shared_from_this<Y>
{
public:
shared_ptr<Y> f()
{
return shared_from_this();
}
}
Then you can call y->f() to get the this pointer of the ...
@StackedCrooked Whether "FAQ" sounds wrong depends on how you pronounce it. "Eff-Ah-Cue" doesn't sound wrong to me, at all. Of course, I'm not a native, so I might miss something, but given this room's track record I'll assume you have a dirty fantasy until I'm proven wrong.
This question has historical significance, but is not a good example of an appropriate question. Read and learn from this post, but please do not use it as evidence that you can ask similar questions.
See the FAQ for more info.
Provide QUALITY books and an approximate skill level. Add ...
Consider the following class, with the inner struct Y being used as a type, eg. in templates, later on:
template<int I>
class X{
template<class T1>
struct Y{};
template<class T1, class T2>
struct Y{};
};
Now, this example will obviously not compile, with the error th...
I'm guessing your usage of shared_from_this() is wrong.
It should be used in a class as follows:
class Y: public enable_shared_from_this<Y>
{
public:
shared_ptr<Y> f()
{
return shared_from_this();
}
}
Then you can call y->f() to get the this pointer of the ...
