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What is the difference between these two ways of writing a function in C++? Are they both "pass by reference"? By "pass by reference", I mean that the function has the ability to alter the original object (unless there is another definition, but that is my intention).

From my understanding, when you call f1, you pass in a "synonym" of the original object. When you call f2, you are passing in a pointer to the object. With the f2 call, does a new Object* get created whereas in with f1 call, nothing does?

f1 (Object& obj) {}
f2 (Object* obj) {}


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NO. They are not both "pass by reference" (hint: what is different about the semantics of assigning to obj inside the function?). Evaluation Strategy is a must-read and should clarify the big difference. (The latter is "pass by value [of the pointer]", but see "pass by object sharing" in the link.) –  user166390 Jun 2 '11 at 22:12
@pst: What I find interesting about the Evaluation Strategy link is that it has an example of passing a pointer as pass-by-reference in C. Is it any different for C++ (except that you also have the option of actual "references" in C++)? –  Fred Larson Jun 2 '11 at 22:40
@Fred Larson Yes. I didn't notice that before. Going with the label: "Example that simulates call-by-reference in C"; then it can be argued it's simply showing how to emulate call-by-reference through the use of pointers to modify the object referenced (doh, what an overloaded term!) by the variable in the caller (or, since the changes to the object are just shared, this is arguably also "pass by object sharing" ;-) In the example -- even though the addresses are taken at different times -- the end semantics are the same, but it's more apparent that b is being modified. –  user166390 Jun 2 '11 at 22:48
(As for my use of object in C: as far as I understand -- and use the term -- an object is data accessible through an object type. I do not know if this use of object terminology carries over to C++ at all.) –  user166390 Jun 2 '11 at 22:56
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5 Answers

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f1 (Object& obj) {}

When you call f1, for example f1(o1):

  • obj becomes the other name for o1 (alias), that's it. So o1 is just alias for obj; they have the same address (you can check that &obj==&o1 is true)

f2 (Object* obj) {}

When you call f2,for example f1(&o1):

  • obj is created and initialized with &o1; that is similar like:
    Object* obj=&o1; // just for understanding what happens when you call f2(&o1)
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Your understanding is correct.

Technically, f2 is pass by value, with the value being a pointer, but you can use that copy of the pointer to modify the pointed-to object.

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They are both pass-by-reference in a general sense, but that phrase will not normally be used to describe the pointer version because of possible confusion with C++ reference types.

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I reject this statement. It implies that they both have "pass by reference" semantics. They do not. Keeping on propagating the use of "pass by reference" to mean "pass by value [of pointer/reference]" or "pass by object sharing" is confusing. –  user166390 Jun 2 '11 at 22:14
@pst: They do both have "pass-by-reference" behavior, with different syntax and semantics. A C++ pointer is a reference in the CS language-independent sense of the word. A reference is passed, hence it is pass-by-reference. The parameter is, however, not a C++ reference type. –  Ben Voigt Jun 2 '11 at 22:16
@Ben Voigt Please see Evaluation strategy for the premise of my argument. The semantics are different -- hence the terms should be different. The fact that "the object is not copied on the stack" is not relevant to "pass by reference" behavior. It is simply a property of the two independent calling strategies that happens to be the same. –  user166390 Jun 2 '11 at 22:20
@Ben Voigt: The pointer can be used as a reference to something else, but the fact remains that the pointer is passed by value and not by reference. –  Peter Alexander Jun 2 '11 at 22:34
@Ben Voigt After re-reading the posters definition of "pass by reference" I must agree in the context of this post. However, I am still opposed this term to describe the behavior -- it is somewhat akin to arguing that recursion (where TCO can be and is utilized) and loops are the same because they can both achieve the same desired result. (But yet I know people who can argue this well formally .... so it might not be such a good example ;-) –  user166390 Jun 2 '11 at 23:36
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What is the difference between these two ways of writing a function in C++? f1 is passing an object by reference, f2 is passing a pointer by value. Both have the ability to modify the object f1 directly through the reference and f2 by dereferencing the pointer.

With the f2 call, does a new Object* get created whereas in with f1 call, nothing does? f2 could allocate a new object at that address or use an already allocated object at that address depending. However passing a pointer by value will not call new it will simply be a copy of the pointer which may or may not point to a valid allocated object.

Check out the wiki link posted as a comment by pst.

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A pointer can be null where a reference can not.


What are the differences between pointer variable and reference variable in C++?

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Actually, either one CAN be null, but a reference obviously shouldn't. (Most pointers also shouldn't, but it isn't always obvious) Making a null reference and dereferencing a null pointer both produce undefined behavior. –  Ben Voigt Jun 2 '11 at 23:52
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