@ScottW the Norton source code leaked today, so it didn't come from Norton.
Is there any decent free and open-source AV software? Not that I'll use it, but I am just wondering.
I like to use the same style as the standard. Lower case, underscores, no camelcase.
user406009
The problem with following the standard's naming style is that you see. fum = foo(a); Now, before looking up the type of fum, is foo a function or a constructor?
I've been using Microsoft Security Essentials on my gaming PC. I figure Microsoft should know about Windows' security holes better than anyone else. :P
I like capitalizing class names because then I don't have to think of clever prefixes or names for instance variables: Rectangle rectangle(4, 3); as opposed to rectangle a_rectangle(4, 3);
Note that's it's possible to do rectangle rectangle(4, 3);, although that tends to be frowned upon. Personally I use e.g. std::vector<T> vector; a lot.
Possible translations: "Henk ate an apple.", "Henk was eaten by an apple.", "Henk drinks an apple all at once." and "Henk is being drunk by an apple all at once."
The genders aren't even remotely related to the inanimate object in question. It goes by what rolls better off the tongue. For example "épée" (sword), a manly thing, is feminine.,
Esperanto!!!
I started to learn it but never gave it any dedication.
@EmileCormier But not the word 'boat' itself and so on, it's not strictly speaking the same thing. The same thing happens in other languages including French, too.
@Pubby E.g. std::unique_ptr<int[]> already comes with an appropriate deleter (i.e. it uses delete[]).
@daknok_t Lambda expressions can't appear like so in an unevaluated operand. Regardless of that though (you can in fact get around that limitation), no, the type of a closure object is not default constructible.
boost::unique_ptr would have been nice when implementing the pimpl idiom. For some reason boost::scoped_ptr gave me errors and I had to resort to shared_ptr even though the pimpl was never shared.
@LucDanton : I don't remember exactly. I'll have to dig that code up and maybe ask a question on SO. I think it's because I was forward declaring a Pimpl struct as a nested type inside the class in question.
@LucDanton Oh yeah, implementation is an incomplete type. Maybe they fixed the issue I had.
@LucDanton : I now seem to remember an explicit destructor causing the problem. I'll see if I whip up a small example that replicates the problem i had.
@LucDanton : Ok, I replicated the problem with`boost::scoped_ptr` and pimpl. I'm getting the error when I leave the default implicit destructor. When I declare the destructor explicitly and provide an empty implementation, the error goes away! Thanks, Luc.
I've used boost::scoped_ptr a lot with pImpl. It requires a user-defined destructor of both the surrounding class and Impl in the same compilation unit.
My computer science professor wants us to find the declaration of bout. I've compiled a simple Hello world program using g++ and the -E parameter. Here's what my hello.cpp looks like:
#include <iostream>
using namespace std;
int main(){
string name="";
cout << "Good morning! ...
I wanted to compare reading lines of string input from stdin using Python and C++ and was shocked to see my C++ code run an order of magnitude slower than the equivalent Python code. Since my C++ is rusty and I'm not an expert Pythonista, please tell me if I'm doing something wrong or if I'm mis...
Are there any downsides with using make_shared<T>() instead of using shared_ptr<T>(new T).
Boost documentation states
There have been repeated requests from
users for a factory function that
creates an object of a given type and
returns a shared_ptr to it. Besides
conven...
Sort of. For instance the Standard doesn't mandate that a call to std::make_shared results in only one allocation, but implementations are encouraged to do just that.
The bit about deleters is very much in currency however.
The point of boost::make_shared is that it's an optimization where only one allocation happens.
If you do boost::shared_ptr<T>(new T) two allocations take place: obviously the one associated with the new expression, but another one during construction of the shared pointer to hold the reference count.