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Say we have this class:

class book {
  book(int pages = 0) {pages = m_pages;}
  getPages() { return m_pages;}
  setPages(int pages) { pages = m_pages;}
  int m_pages;

I never understand when to use a pointer to a class, or when to make an object of it. Example: what is better and why?

book The_lord_of_the_rings;


book* The_lord_of_the_rings;


share|improve this question
Never make a pointer. – Kerrek SB Mar 8 '13 at 9:34
book(int pages = 0) {pages = m_pages;} shouldn't it be book(int pages = 0) {m_pages = pages;}? – varnie Mar 8 '13 at 9:35
@KerrekSB Why that? – user529758 Mar 8 '13 at 9:36
@H2CO3: If there's a strong reason to use a raw pointer, you would know it. If you aren't sure, then you probably don't need it :-) It's only approximate advice, but I'm test-driving it to see if it makes a good first lesson. – Kerrek SB Mar 8 '13 at 9:39
@H2CO3: But seriously, implementing your own data structure falls under "know what you're doing". I've come to amend the general rule to read, "never use public naked pointers". For private variables they're OK, because they're tightly controlled by the class author and there's no semantic leak. – Kerrek SB Mar 8 '13 at 9:42
up vote 2 down vote accepted

In the first case the variable The_lord_of_the_rings is the object. In the second case, the variable points to somewhere else in memory where the object is.

Lets try a simple ASCII imagery:

In the first case you have an object:

| The_lord_of_the_rings                 |
| (All data associated with the object) |

In the second example you have a pointer:

+-----------------------+       +--------------------------------+
| The_lord_of_the_rings | ----> | The actual object and its data |
+-----------------------+       +--------------------------------+

However: As noted by juanchopanza in a comment, a pointer doesn't actually have to point to a valid object. If you just declare a pointer as a local variable, it's not initialized and points to a seemingly random location in memory. Dereferencing (accessing data the pointer points to) in this case leads to undefined behavior, and may actually crash the program. A pointer should always be initialized to point to a valid object before it can be used.

In modern C++ there are few reasons to use pointers, especially raw pointers. Now there are good "smart pointers" like std::unique_ptr and std::shared_ptr.

When to use pointers depends much on the situation, but generally you can come a long way with plain objects and references.

share|improve this answer
No, in the second case, the variable just points to somewhere. Not necessarily to a location where there is an object. It doesn't have to, unlike say a reference. I think this distinction is important. – juanchopanza Mar 8 '13 at 9:38
That's understood, thanks for this. – user2140285 Mar 8 '13 at 9:50

To use Polymorphism you need to use pointer to a class.

Another scenario is in embedded systems programming or whenever there is constraint on the available memory, we prefer using pointers, allocate memory on need and de-allocate memory once we are done with the use so that others can get memory when in need.

share|improve this answer
You don't really need pointers, at least not raw pointers, for polymorphism to work. The two concepts are decoupled. – juanchopanza Mar 8 '13 at 9:48
Run time polymorphism to be specific – arun_vj Mar 8 '13 at 10:07
Raw pointers are not even required for that. – juanchopanza Mar 8 '13 at 10:09

I prefer use pointer when have something to do with inheritance and virtual function. It is also useful to get rid of copy constructor called when pass as parameter to function. Pointers give you freedom to allocate/delete(by new/delete keyword) as you feel necessary. On other hand use of object will help you to reduce memory leak problem as the system will claim memory on its own when object is out of scope.

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