When exactly are objects destroyed in C++, and what does that mean? Do I have to destroy them manually, since there is no Garbage Collector? How do exceptions come into play?
(Note: This is meant to be an entry to Stack Overflow's C++ FAQ. If you want to critique the idea of providing an FAQ in...
@RMartinhoFernandes not necessarily. If the tenth fails to construct, but the first 9 correctly destruct, there's still one exception. Thus, no terminate.
> If an exception is thrown during the construction of the n-th element, the elements n-1 to 0 are destructed in descending order, the underlying memory is released, and the exception is propagated.
Isn't that stack unwinding? If so: During stack unwinding, no further exceptions may leave the destructors of the aforementioned previously constructed automatic objects. Otherwise, the function std::terminate is called.
Throwing an exception out of a destructor is dangerous.
If another exception is already propagating the application will terminate.
#include <iostream>
class Bad
{
public:
~Bad()
{
throw 1;
}
};
int main()
{
try
{
Bad bad;
}
...
5.3.4\18 "If any part of the object initialization described above terminates by throwing an exception and a suitable deallocation function can be found, the deallocation function is called to free the memory in which the object was being constructed, after which the exception continues to propagate in the context of the new-expression." Seems to imply it doesn't destruct the rest in that situation. Same as MSVC's vector implimentation.
15.1 Throwing an exception: Paragraph 7: If the exception handling mechanism, after completing evaluation of the expression to be thrown but before the exception is caught, calls a function that exits via an exception, std::terminate is called
@CatPlusPlus That will give you initialized memory. Maybe you want to poke into uninitialized memory and see if there's something interesting there? ;)
@KerrekSB: in stackoverflow.com/q/8720425, to what do you say "Undefined Behavior", and we though standard says deallocators shouldn't throw, it doesn't say destructors can't.
@MooingDuck The standard doesn't forbid destructors from throwing, but can get yourself into UB, or outright termination, very very quickly with a class which has throwing destructors.
@KerrekSB If I recall what I read earlier, it might be UB if the exception has no move/copy assignment. or constructor. Or maybe it fails to compile. I don't recall.
5.3.4 [expr.new] of the C++11 Feb draft gives the example:
new(2,f) T[5] results in a call of operator new[](sizeof(T)*5+y,2,f).
Here, x and y are non-negative unspecified values representing array allocation overhead; the result of the new-expression will be offset by this amount from ...
@Xeo Some people started adding "Sponsored by Google Chrome" and such on several places with low-quality content. Google did what they do to anyone else trying to cheat search results.
That is 1) I type { 2) tool types } for me, insertion cursor is in the middle of both braces 3) I type newline 4) tool adds an additional newline to put the brace on and properly indents everything.
if you feel alright not writing an explicit copy ctor when you don't need, you should be alright with a none-explicit conversion ctor. in both ways just think things through. code not written is bugs not produced.
yes. there are rules for when to write a copy ctor and when not too. same for conversion ctors. they're useful when done right, in eliminating code. a value of the highest magnitude!
Which is annoying because if I make it template <typename... Args> explicit foo(Args&&...); I can't use list initialization (like { 1, 'a', "blah" }) without saying the type name.
I can't have the compiler preventing void f(foo); f(1); but allowing f({ 1 }); at the same time.