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C++ Smart Pointers
C++ Smart Pointers
Shared Pointer Functions to Remember
We have already explored what shared pointers are, and how to create and share them. Now, let’s look at some important functions and operators that make shared pointers even more powerful and flexible.
The reset function
The reset
function allows you to reset a shared pointer, i.e. release its ownership of the dynamic object. When you call reset
, the reference count decreases, and if there are no other shared pointers referencing the pointed object, the memory is automatically deallocated.
Note
If other shared pointers reference the object, the reference count decreases. Nonetheless, the object persists until all shared pointers are reset or go out of scope. This function serves two purposes effectively.
When reassigning a shared pointer
When you pass a new object as an argument to the reset
function, the shared pointer starts pointing to the new object.
In the above code, we are reassigning sharedPtr
to a new instance of MyClass
.
When releasing ownership
If you call reset
without any parameters, the shared pointer simply stops pointing to the dynamic object.
In the above code, we are simply releasing the ownership of the dynamic integer from sharedInt
.
The swap function
Use the swap
function when you want to swap the contents of two shared pointers. Remember that when you swap two shared pointers, their reference counts and ownership of the dynamic objects are also swapped.
In the above code, we are swapping two shared pointers that both point to dynamic integers. After the code is executed, sharedInt1
will be holding the value 99, whereas sharedInt2
will be holding the value 42.
The get function
Just like unique pointers, every shared pointer holds a raw pointer to the dynamic object. You can use the get
function to retrieve the raw pointer, without affecting the reference count.
In the above code, we are extracting a raw pointer from a shared pointer. This can be necessary when working with legacy code that doesn’t support smart pointers.
The use_count function
The use_count
function allows you to inspect the current reference count of a shared pointer. It is especially useful for debugging, and for ensuring that shared ownership is working as expected.
In the above code, we use the use_count
function to get the current reference count of the shared pointer.
Shared pointer operators
Shared pointers provide several operators to make C++ code more concise and readable. For example:
- The
==
and!=
operators allow you to compare a shared pointer with another shared pointer, or withnullptr
. - The dereference operator
*
provides access to the dynamic object pointed to by the shared pointer. - The arrow operator
->
makes it easy to access the members of the object pointed to by the shared pointer.
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