14

I do this:

MyClass myObject = *new MyClass();

But a lot of people say I should do this:

MyClass *myObject = new MyClass();

Is there a performance difference. Or a logical reason to use the second method at all? I just prefer to use the first method to get rid of the pointer confusions.

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    The question I have is "why do you do this?" If you want to drink a glass of water, do you first go buy a new glass, fill it with water, pour the water into an old glass and throw the new glass away? – Nik Bougalis Jun 2 '13 at 6:02
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    Wow... I'm shocked that anyone lets you get away with the first method. That's just Babytown frolicks. Nik's metaphor is spot on. – Iron Savior Jun 2 '13 at 6:05
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    If you've ever handed in homework that contained code like that you should seriously demand a refund. They obviously didn't catch it or were not effective in explaining what it does and why you shouldn't do it. – Captain Obvlious Jun 2 '13 at 6:09
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    @NikBougalis: good metaphor, but he's even worse: he doesn't throw the glass away; he forgets it somewhere on the table. I wonder how many glasses are in the house! – Emilio Garavaglia Jun 2 '13 at 7:04
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28

Both are not same!
First gives you a Undefined behavior[Ref 1:] or a memory leak while second doesn't if you call delete later.

MyClass myObject = *new MyClass();

Allocates a object of type MyClass on freestore and then copies that object to myObject. You lose the pointer to the dynanically allocated object and thus can never deallocate it.
If MyClass destructor has side effects and your program depends on those side effects then it gives you Undefined Behavior if not then what you have is a simple plain memory leak.

MyClass *myObject = new MyClass();

Allocates a object of type MyClass on freestore and the points myObject to the address where the dynamically allocated object is placed. You still have the pointer to the object, which you can deallocate by calling delete later on.


If your question is, what is the best way to do this,
The answer is to not use dynamically allocated object at all:

MyClass obj;

Good Read:

Why should C++ programmers minimize use of 'new'?


[Ref 1:]
C++11 Standard: 3.8.4:

A program may end the lifetime of any object by reusing the storage which the object occupies or by explicitly calling the destructor for an object of a class type with a non-trivial destructor. For an object of a class type with a non-trivial destructor, the program is not required to call the destructor explicitly before the storage which the object occupies is reused or released; however, if there is no explicit call to the destructor or if a delete-expression (5.3.5) is not used to release the storage, the destructor shall not be implicitly called and any program that depends on the side effects produced by the destructor has undefined behavior.

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    Why does letting go of a heap-allocated object with a side effect in the destructor produce undefined behaviour? – Alex B Jun 2 '13 at 5:21
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    @AlexB: Because the standard explicitly says so. Added the quote for your reference. Also, it is quite intuitive behavior, say for example one closes file handles or descriptors in destructor which never gets called then a UB is definitely on. – Alok Save Jun 2 '13 at 5:36
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    It's only UB if the program depends on the side-effects of the destructor, but that's really just a tautology. Just because a destructor might have side-effects, if they are ignored then leaking memory is just leaking memory. – Lee Daniel Crocker Jun 2 '13 at 5:39
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    @LeeDanielCrocker: I have added the exact quote from the standard to specify that. It says it clear enough even my wordings may not have been as clear. – Alok Save Jun 2 '13 at 5:43
22

The first example says: Allocate memory on the stack for an instance of MyObject, then allocate memory on the heap for another one, construct the one on the heap, copy its contents to the one on the stack, and then lose track of the heap pointer so it can't be freed.

The second one says: Allocate a pointer on the stack, allocate space for an instance of MyObject on the heap, construct it, and assign the pointer to its address so it can be freed later.

The second case uses less memory, is faster, and doesn't leak memory. The first case says "I don't understand C++".

2

The first is nonsense.

MyClass myObject = *new MyClass();

The part after the = allocates memory and creates a new MyClass object. The first part creates a new MyClass object by calling copy constructor with the RHS MyClass object. Then the memory allocated in the RHS leaks because you don't have a saved pointer to delete it with.

The above statement is the same as writing.

MyClass myObject;

Followed by

Leak memory equal to size of MyClass.

First of all decide whether you want an object on the stack or on the heap.

If you want an object on the stack, then do

MyClass myObject;

This creates a MyClass Object - it serves well for most purposes.

If you need an object on the heap, then do

MyClass *myObject = new MyClass();

The first way - allocating on the stack is more efficient. You do heap allocation for other reasons

  1. At compile time, you don't know how many objects you need to create.
  2. Use classes polymorphically.
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    It's not the same - there's a requirement for the copy constructor to at least be visible and it may get called, where as MyClass myObject; is always just default constructed. – Flexo Jun 2 '13 at 5:23
  • @Flexo - yeah sure. – user93353 Jun 2 '13 at 5:27
  • I want to edit and change "nonsense" (it compiles, it does something, and there'll be some crackhead somewhere who actually designs a system that somehow requires you to do something exactly like this, probably a network guy) to "priceless", "comedy gold", "retardarific", "herptastic". – kfsone Jun 2 '13 at 5:34
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    I think nonsense is too strong, but I wouldn't call it funny (or similar words) either. It may be "correctly" using a badly-designed class, but in the usual case, it leaks memory and wasn't what was intended. If it was intended, you'd at least want a good explanatory comment there too. – mwfearnley Jun 2 '13 at 5:39
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