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I have been using Java since years. Now I need to understand a piece of C++ program.

TimeStamp theTimeStamp;

What puzzles me is why don't we write

TimeStamp theTimeStamp = new(); 

My intuition is, to use an object, a memory space should be first allocated and associated with the object.

I guess this is a point where Java and C++ differ fundamentally? Could you clarify?

[EDIED] I wrote 'TimeStamp theTimeStamp = malloc();'

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@zell TimeStamp theTimeStamp; includes allocation and object construction. theTimeStamp itself is allocated on the hardware stack. You use new if you want that object on the free store. –  greatwolf Oct 30 '13 at 8:40
@zell: People are idiots and vote down any question now, simply because you didn't already know the answer. I'd ignore it. –  Lightness Races in Orbit Oct 30 '13 at 8:57
@LightnessRacesinOrbit Perhaps it is to do with asking about malloc specifically. It shows little research effort. There is an interesting question somewhere in there though. –  juanchopanza Oct 30 '13 at 9:00
C++ has a totally different object model from Java. In C++, variables are unconstrained, and variables can be objects. (But not every variable is an object, and an object doesn't have to be a variable.) This is all fundamental to the language and should be contained in any decent beginner's text book. (By contrast, Java variables (of non-primitive type) are never objects.) –  Kerrek SB Oct 30 '13 at 9:08
@KerrekSB In C++, every variable is an object (but not all objects are variables). This is one of the fundamental differences between C++ and Java: in Java, "objects" must be dynamically allocated, variables are not objects, and there are special types which are not objects as well. In C++, you don't have all of these distinctions: practically speaking, everything that is not a function or a reference is an object; objects have (fundamentally) value semantics and unless dynamically allocated, language determined lifetime. –  James Kanze Oct 30 '13 at 9:34

4 Answers 4

up vote 6 down vote accepted

You would never write TimeStamp theTimeStamp = malloc(); in C++.

First, because malloc is from C and should really not be used in C++. Second, it is unaware of its context and needs a parameter to specify how much memory it must allocate, and returns an untyped pointer which you'd need to cast.

Instead you'd e.g. write

TimeStamp * theTimeStamp = new TimeStamp();

See - that's very similar to Java. Notice the * in there? That's for specifying that theTimeStamp is a pointer (in Java, every variable of a user-defined type is a pointer/reference, so you don't have to care about explicitly stating this).

In C++, however, you can choose whether you want

  • C++ to automatically handle the creation and destruction with the variable scope (i.e., without the *, as is done in your first code example). This means however, that as soon as theTimeStamp goes out of scope (i.e. usually at the end of the block where the variable is defined), the variable will be destroyed automatically.
  • Or if you want to do the dynamic memory allocation yourself (the default case in Java) - but in contrast to Java, you'd also have to care about the deletion of the object yourself in C++.

This having to take care about deletion "manually" is why in C++ usually such raw pointers are not used directly, but instead so called smart pointer types, e.g. std::shared_ptr from the new C++11 standard. They spare you the chore of having to do the deletion manually (and probably forgetting about it in many cases). There are other smart pointer types as well; the shared_ptr however provides the closest resemblance to what Java does - you can assign a shared_ptr to another, thereby keeping the object it points to alive, and only when the last of the shared pointer's pointing to an object is destroyed, will the object pointed to also be destroyed.

Whenever you can, it is however preferable in C++ to refrain from using pointers at all, and instead using automatically allocated variables.

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I disagree with your last paragraph. Most pointers in C++ will also be raw pointers. The big difference in comparison with Java is that you do use value semantics; pointers (particularly as local variables) are relatively rare. –  James Kanze Oct 30 '13 at 9:30
We've had this discussion many times, but I feel that you never should use a raw pointer to point to an object you need to clean up. –  Puppy Oct 30 '13 at 18:40

Think of this in this way. In java when you want an int, you don't do

int i = new int(5);

You do

int i = 5;

In Java there is a distinction between a primitive and Objects. Primitives are allocated on the stack without new, and are destroyed at the end of scope. Objects are allocated with new and are garbage collected.

In C++ every class you write is by default like a primitive. It gets created on the stack, and gets destroyed at the end of scope. You can control what happens at creation and destruction by writing the Constructor and Destructor. Now this works great as long as your variables are limited by scope. When this is not the case, you can allocate the object of the class on the heap using new (old style) or make_unique/make_shared (modern style).

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In your example given, as no arguments are passed, the constructor of TimeStamp is called with no arguments to create a new TimeStamp on the stack. This variable will be deleted when its scope runs out (A new stack frame is used).

malloc allocates an amount of memory passed as a parameter and returns a void* to a block of that size. This memory is allocated on the heap, and will not be deleted when the scope runs out, and must be freed explicitly.

Seeing as this is C++ however, you do not want to be using malloc and free, you should instead stick to the friendly C++ variants new and delete.

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Except you shouldn’t use new and delete directly; you should use abstractions that do that for you (such as std::vector and std::make_unique). :) –  elyse Oct 30 '13 at 8:44
Well yes, but to display the concept of memory allocation... –  Quirliom Oct 30 '13 at 8:45

An automatic variable is a variable which is allocated and deallocated automatically when program flow enters and leaves the variable's context.

All variables declared within a block of code are automatic by default.

So when the flow reaches

TimeStamp theTimeStamp;

it automatically allocates this object on the stack using default constructor. The destructor is invoked automatically too, when the flow reaches }

You can also allocate it using dynamic memory:

TimeStamp *theTimeStamp = new TimeStamp(); //calling default constructor

And delete theTimeStamp; manually.

Never use malloc or free to allocate the class variable(object).

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finally, someone who cares to mention automatic varaibles –  thecoshman Oct 30 '13 at 8:58
TimeStamp theTimeStamp; which is equivalent of TimeStamp theTimeStamp(); These are not equivalent. –  Simple Oct 30 '13 at 10:05
@Simple so, could you explain why they are not –  Alexey Teplyakov Oct 31 '13 at 8:44
@AlexeyTeplyakov Look at the signature of TimeStamp theTimeStamp() and then look at TimeStamp getCurrentTime(). They are both function declarations. Pedantically your edits aren't the same either. The second one requires that a non-deleted copy constructor be defined whereas the first doesn't. –  Simple Oct 31 '13 at 13:00
@AlexeyTeplyakov You can declare functions inside of other functions but you can't define them inside of other functions. Anything that can be parsed as a function declaration is a function declaration. So they are both function declarations. –  Simple Oct 31 '13 at 14:51

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