Say I have a class called
Money which has parameters
I could initialize it in the followings 2 ways:
- Money a(3,15);
- Money *b=new Money(3,15);
My question is when should I use (1) and when should I use (2)
The first one creates a
The second one creates a
Use 1 when you can, 2 when you have to. The "when you have to" basically translates to "when you're creating an object that whose lifetime is not/cannot be tied to "scope" -- i.e., it must remain in existence after the function that created it exits. You generally want to avoid this if you can though, such as by returning a copy of the object in question, instead of making that object (itself) last after the function returns.
Past that, there are (unfortunately) no really hard and fast guidelines to follow that assure you're doing things as well as possible.
This is a much more complex question than it looks. The simple answer is
1) When you want to stack storage and scope bound resource management, when the scope is left the destructor on this object will be called and storage on the stack will be popped.
Be careful not to pass a pointer to one of these scope-bound objects up the call stack (returning, output parameters), this is an easy way to segfault.
2) When you want the object allocated on the free-store, this pointer must be deleted or a memory leak will occur.
Take a look at shared_ptr, scoped_ptr, auto_ptr, et al. for some alternatives that make #2 act in some ways like #1.
Also, take a look at this question for some pointers on memory management in C++.
Allocates a pointer-variable to the local scope, and makes the pointer "point" to a
Example 1 :
Assume next scenario:
This will fail because after
The free-store is also used when you want to store and use arrays of great size.
There is a difference between the two as you noticed on the example, and that is that in the local scope
See Martin York's answer for deeper knowledge beyond this post.
Form 1 is simplest; use it when you can.
Form 2 buys you the following things:
Form 2 introduces the possibility or resource leaks, since objects created with
In short, use Form 2 when you need one of the things listed above, and then put it in a smart pointer; otherwise use Form 1.
Well technically would prefer you never did (2) directly but prefered the use of a smart pointer:
But the overall question remains.
If your object is cheap to create an copy(which it looks like it is). Then you shouls hardly ever need to create the object dynamically. Passing an object to a function or returning a result can all be done quite normally:
If you were building a dynamic expression is then you can hold the pointers using smart pointers.
It is totally different.
In general, you would use form 1 when the object has a limited life span (within the context of a block) and use form 2 when the object must survive the block it is declared in. Let me give a couple of examples:
Alternatively, if you want to have the objects survive the function, you would use new as follows:
Hope this helps.
You should use option two when you want a pointer to an object, and option one when you want a value.