@ThomasWeller This actually does a placement new. std::nothrow is actually an object of type std::nothrow_t. That object isn't used for anything except to select an overload of placement new that returns a null pointer instead of throwing in case of failure.
#include <vector>
#include <iostream>
namespace my {
struct nothrow_t {
nothrow_t(void *) {}
nothrow_t() = default;
};
nothrow_t nothrow;
}
void *operator new(std::size_t size, my::nothrow_t &) throw() {
try {
return new char[size]; // will throw in case of error
}
catch (...) {
return nullptr; // catch the exception and return nullptr instead
}
}
void *operator new[](std::size_t size, my::nothrow_t &) throw() {
try {
return new char[size];
Note that new char[size] is not how you really want to allocate raw memory. I used it here only to demonstrate using something that would normally throw, and converting that to return a nullptr instead. Usually you'd use ::operator new (which doesn't throw in the first place).
@JerryCoffin: can we say it's sort of a misuse of placement-new? Placement-new ought to put my new object into an existing buffer. But my ellipse will not be put into the space that is already allocated by the nothrow object. Instead it will allocate new memory, which is exactly the opposite of what placement-new was originally designed for. I see that this has some benefits, so this might well have its usage today.
@JerryCoffin: you already mentioned that new char[size] is not the correct way to allocate memory. For a moment, let's assume it would be implemented like that. When int *i is allocated, would I need to delete[] it, because it used new[] to allocate the space?
@ThomasWeller If you think of placement new as having a specific purpose yes. If you think of it as merely being another case of overloading...maybe or maybe not. But using overloading to change behavior in a fundamental way tends to be a poor idea in general.
On the other hand, as you've already found, it's not exactly obvious that what you're dealing with is overloading, so it's a bit different from making foo(bar) do two entirely different sorts of things depending on the type of bar.
