Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

Possible Duplicates:
Why use pointers?
Passing a modifiable parameter to c++ function

Why would I want to have pointer parameters? The only reason I can see is for small functions to attempt to reduce confusion and a smaller memory footprint.

share|improve this question

marked as duplicate by George Stocker, greyfade, James McNellis, bmargulies, dmckee Jun 18 '10 at 15:31

This question has been asked before and already has an answer. If those answers do not fully address your question, please ask a new question.

For clarification: Are you talking about pointers as parameters to functions? – greyfade Jun 17 '10 at 19:31
Possible duplicate: stackoverflow.com/questions/162941/why-use-pointers – Cogwheel Jun 17 '10 at 19:32
@greyfade: When you create a function with pointer arguments. Why would you want to do this? – anon235370 Jun 17 '10 at 19:34
As opposed to what? Do you question the use of any indirect reference or just pointers vs references? – Stephen Jun 17 '10 at 19:38
It's entirely possible the OP has never heard of references and from his perspective it's the debate between "regular" parameters and parameters that are pointers. – Matt Greer Jun 17 '10 at 19:49

11 Answers 11

up vote 5 down vote accepted

In http://stackoverflow.com/questions/1322517/passing-a-modifiable-parameter-to-c-function/1322547#1322547 I answered when to use a reference instead of a pointer.

Conversely, prefer a pointer to a reference when any of the following are true:

  • It can be null
  • It can be changed (to point to something else)
  • It must be deleted

Some people also prefer a pointer when the thing that's being pointed at should be mutated, saying that the difference between a const reference and a non-const reference isn't obvious enough to the reader.

share|improve this answer
  1. Compatibility with C code where references aren't available.
  2. Variable sized arrays.
  3. Option to have a missing parameter, i.e. NULL.
share|improve this answer
Variable sized arrays aren't in C++. (Or were you referring to dynamically allocated arrays?) – Billy ONeal Jun 17 '10 at 19:37
@Billy Oneal, It's variable to the function, not to the caller. I.e. void Foo(int* array, int count); int first[10]; int second[20]; Foo(first, 10); Foo(second, 20); You could declare instead void Foo(int array[], int count); but it would be exactly the same thing, just a pointer in disguise. – Mark Ransom Jun 17 '10 at 19:50
Ah.. thanks for explaining. +1 – Billy ONeal Jun 17 '10 at 20:10

Pointers are the only way to accept C-style strings and arrays. They're also the only way to share data between multiple threads (besides global objects, which... ew).

share|improve this answer

There are many reasons to have pointers as parameters. A major reason is polymorphism. The pointer can point to a base class object or a subclass, and will call methods on that object accordingly.

I recommend Accelerated C++ by Koenig, he does a good job of explaining how polymorphism works in C++ via pointers (and references).

share|improve this answer
Note that polymorphism works correctly with references as well. – James McNellis Jun 17 '10 at 19:36
Your first reason doesn't require pointers. – JSBձոգչ Jun 17 '10 at 19:36
Yeah, I said "and references". C++ happens to have two ways of invoking polymorphism. Pointers being one of them. – Matt Greer Jun 17 '10 at 19:39

Two reasons:

  1. A pointer on a 32-bit platform is only 4 bytes. If the data you're passing to the function is more than 4 bytes, you save some call time by passing the structure by reference instead of by value. (You may give up this performance advantage in indirection costs later, but that's where profiling comes in.)

  2. You can pass a non-const pointer to let the function modify the passed data.

share|improve this answer
Point 2 can also be accomplished with references. Point 1 is totally moot today - moving a few bytes is extremely fast, getting speed-ups is better done in more efficient algorithms and protocols, not shaving 10 bytes off a function call. – CMircea Jun 17 '10 at 19:40
Point 2 is a question of syntactic preference: some like to make it explicit that they're passing an address, not a value. Point 1 is not "moot". That would mean it doesn't matter how big your data structure is. Try passing a 10 MB linked list by value some time. – Warren Young Jun 17 '10 at 19:43
@iconiK point 1 can be accomplished with references, but it's definitely not moot because of the reason you stated. Objects are frequently much bigger than 10 bytes. Evaluating and passing the address of an object can be a huge speed up over copying the object, especially when it's a frequently called function. – Graphics Noob Jun 17 '10 at 19:50
@Graphics Noob, which is why pimpl and implicit sharing are excellent ways to speed up copying. – CMircea Jun 18 '10 at 5:35

Other than the standard uses for a pointer parameter (that others have already stated), one reason that I can think of is to implement callbacks. You can have a function that accepts a function pointer as a parameter.

share|improve this answer

I assume you mean as opposed to references? The thing that you can do with pointers is set them to NULL, which allows you to specify an uninitialized state. This can sometimes be useful, but the corollary to that is that if you want to enforce that NULL cannot be passed to your function then using a reference makes that clear.

share|improve this answer

if you pass a simple variable to a function, the function creates a copy of that variable for use within the function's scope. When the function completes execution, any changes made to the passed simple variable won't be shown. This is because the variable itself was never altered within the function only a copy of it was. Passing a pointer to the variable to a function solves this problem.

int some_function(int num) {
   return num++;

int num1 = 15;

std::cout << some_function(num1) << std::endl; //prints 16

std::cout << num1 << std::endl; //prints 15
share|improve this answer
Yes but I can just pass by reference instead. Why would I want to have pointers? – anon235370 Jun 17 '10 at 19:40

IMO, pointers are made out in a lot of C++ documentation to be far more important than they actually are, whereas references are rarely discussed in introductory material (other than brief mentions in terms of parameters).

While pointers certainly have value (arrays, string, dynamic memory, etc.), a lot of their functionality can be implemented more simply with references. The only time I really use pointer parameters regularly is when I am using a third-party library which has such a use built into it.

Using references removes the copy-assignment step implicit in straight class parameters while not requiring tiresome pointer dereferencing (using * or ->) over and over again. In addition, learning to use references is important for applications such as operator overloading, which is vital for precision control of your code.

share|improve this answer

Plenty of reasons, but references should be the "standard". Use pointers only if a reference won't do. Some pros and cons:

  • Pointers can have NULL values, something that's extremely useful
  • Pointers can be of generic types and be reinterpreted as other types (though don't you dare use void *)
  • Pointers can be used to pass huge arrays without a huge memory footprint

  • In the case of generic types, compiler optimizations can operate better with references, because the compiler has more information on used types

  • References arguably make code more readable, more in-line with java and c# and thus better readability by other types of developers

  • References do not actually pass the entire object, but rather a pointer to it, however more type information is available to the compiler.

share|improve this answer

There is one more difference between pointer and references: -pointer can be a NULL-pointer -reference references always an real object [f(T &v); f(NULL); isn't really good idea]

share|improve this answer