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can someone tell me what is the different between (*ptr).field and ptr->field? I know it connect somehow to static and dynamic linking, but i dont know what is it. can someone tell me the differnet and give me an example?

edit: if i have this code:

Point p;       //point is a class that derive from class shape 
Shape *s=&p; 
               //there is a diffrence if i write:

(*s).print();  //print is virtual func
s->print();    // the answers will not be the same, why?


share|improve this question
Did you mean (*ptr).field or *ptr.field? If you really meant *ptr.field, then these two forms just have nothing in common at all, which makes the question virtually meaningless. – AnT Dec 28 '09 at 20:24
i meant (*ptr).field – aharon Dec 28 '09 at 20:39
From your edit: The answer will be the same. See below. – Loki Astari Dec 28 '09 at 20:57
I don't know what "answers" you are referring to in your code sample, but in your code sample both calls will do exactly the same thing. There's absolutely no difference between them. – AnT Dec 28 '09 at 21:04
@aharont: The code you posted doesn't illustrate a difference. Please post a complete minimal test case, which should be compilable as-is. It should thus include minimal definitions for Shape and Point. It should also probably be a new question, as the new question is different from "What's the difference between (*ptr).field and ptr->field?" – outis Dec 28 '09 at 21:22
up vote 4 down vote accepted

it has nothing to do with static or dynamic linking both expressions will return the value of ptr.field

the ptr->field form is an abbreviated syntax for accessing a member directly from a pointer

UPDATE: it occurred to me that your original intent was not linking but binding if this indeed was what you were aiming to then there is static binding and dynamic binding which have some relation to the -> operator see here

share|improve this answer
Yes, but abbreviated for (*ptr).fld, not for *ptr.field. – ChrisInEdmonton Dec 28 '09 at 20:09
It's important to note that these are NOT necessarily equivalent, due to the possibility to overload operator* and operator-> in C++! – HostileFork Dec 28 '09 at 20:15
@Hostile Fork: Which is why, in some shops, C++ code review sessions should include electroshock therapy machines. – David Thornley Dec 28 '09 at 21:00
yesss!! that's what i meant! TNX! – aharon Dec 29 '09 at 11:26
glad we pieced it together at the end ;-) – Alon Dec 29 '09 at 13:22

This has nothing to do with static or dynamic linking.

See C++'s operator precedence. The . has a lower precedence than *, so there's actually quite a difference between *ptr.fld and ptr->fld. For example, the following code demonstrates:

#include <iostream>

struct foo {
  int f;

int main() {
  struct foo *p = new struct foo;
  p->f = 42;
  std::cout << p->f << std::endl;
  std::cout << (*p).f << std::endl;
  // The following will not compile
  // std::cout << *p.f << std::endl;

As John Knoeller points out, ptr->fld is syntactic sugar for (*(ptr)).fld, but is not the same as *ptr.fld, which would actually evaluate to *(ptr.fld), probably not what you want.

You'd use ptr->fld when you have a pointer to a structure and want to access a field contained therein. (*(ptr)).fld means the same thing but is not as tidy. You'd use *strct.fld when you have a structure, not a pointer to a structure, that contains a field (fld) which is a pointer you want to dereference. The case of ptr->fld is shown above. The case of *strct.fld could be used with the following structure:

struct foo {
  int *fld;

struct foo f;
f.fld = new int;
*f.fld = 42;
share|improve this answer
As pointed out by outis, ptr->field is actually syntatic sugar for (*(ptr)).field, not for (*ptr).field. Ooops. Fixed. – ChrisInEdmonton Dec 28 '09 at 20:12
Since ptr is an identifier, (*ptr).field is fine. Still, it's good to point out the general case. – outis Dec 28 '09 at 20:37
The OP confirmed that he actually meant (*ptr).field. I edited the question. – AnT Dec 28 '09 at 20:40

Static linking is the result of the linker copying all library routines used in the program into the executable image. This may require more disk space and memory than dynamic linking, but is both faster and more portable, since it does not require the presence of the library on the system where it is run.

Dynamic linking is accomplished by placing the name of a sharable library in the executable image. Actual linking with the library routines does not occur until the image is run, when both the executable and the library are placed in memory. An advantage of dynamic linking is that multiple programs can share a single copy of the library.

But it is unrelated to pointer indirection you've mentioned -- in fact, those two expressions are identical.

share|improve this answer
Not quite. ptr->field is identical to (*ptr).field, not to *ptr.field. – ChrisInEdmonton Dec 28 '09 at 20:10

I assume that by *ptr.field you meant (*ptr).field.

As far as only built-in operators are considered, there's no difference between the two. And no, it has nothing to do with and "static" or "dynamic" linking, whatever is implied by these terms.

The only potential difference between the two is that in ptr->field variant -> is an overloadable operator in C++, while in the (*ptr).field variant only * is overloadable, while . is not.

Also, some differences between these two methods of member access existed in very archaic versions of C language (CRM C), but I doubt anyone cares about those today.

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This has nothing to do with linking.


is merely shorthand for


It's pure syntactic sugar ;)

share|improve this answer
In particular, see § of the C++ standard. – outis Dec 28 '09 at 20:01
§ 5.2.5 3 If E1 has the type “pointer to classX,” then the expression E1->E2 is converted to the equivalent form (*(E1)).E2; the remainder of 5.2.5 will address only the first option (dot). – outis Dec 28 '09 at 20:06
@outis: The part you quoted desribes the behavior of the built-in operator ->. Don't forget that -> in C++ does not necessarily refer to the built-in operator. It can also be overloaded by the user. The OP did not say that ptr is of raw pointer type. – AnT Dec 28 '09 at 20:12
I didn't forget that. Since the quotation states that the equivalence applies when ptr is a pointer, I didn't bother to say it in my own words. – outis Dec 28 '09 at 20:34

As long as ptr is a pointer, the two are equivalent once properly parenthesized (as others have said). If ptr is an object, rather than a pointer, they might be different depending on definitions for operator* and operator-> (if any) from the object's class or ancestors.

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ok, if i have this code: Point p;//point is a class that derive from class shape Shape *s=&p; there is a diffrence if i write (*s).print();//print is virtual func to s->print(); the answers will not be the same, why? – aharon Dec 28 '09 at 20:32

The form -> is just shorthand for de-refrencing the pointer and accessing the member.

// Equiv to 

One good reason for using -> is that when you are following a chain:

int x = (*(*(*(*ptr).field1).field2).field3).field4;
// Equiv to 
int y = ptr->field1->field2->field3->field4;

The second one becomes much more readable.

As for the second part of your question.
I find it really easy to just nock up an example.

#include <iostream>

class Shape
    public:   virtual ~Shape()        {}
              virtual void Print()    {std::cout << "Shape\n";}
class Point: public Shape
    public:   virtual void Print()    {std::cout << "Point\n";}

int main ()
    Point   p;
    Shape*  s = &p;


> vi x.cpp
> g++ x.cpp
> ./a.exe

As you can see the result is the same in both situations.

When you call a method via a pointer or a reference the virtual call mechanism will be invoked. The star operator (AKA derefence operator) returns a reference to an object (it does not actually de-reference the object). So when it is used to call a method the virtual call mechanism will be invoked and the most derived version of the method called.

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ok, tanks, although my DR. said there is some different, but i cant remember what... – aharon Dec 28 '09 at 21:29
There is no difference between (*ptr)->f1 and ptr->f1. That is defined by the standard. If we move to virtual functions. There re situations where the virtal call mechanism will not be used, but this is not one of them. – Loki Astari Dec 28 '09 at 21:43
so what is the case that the virtal call mechanism will not be used? – aharon Dec 29 '09 at 6:47
When you name it explicitly (I forget the term). But a method in Point can call Shape::Print() or Point::Print() to get a specific version of the method. – Loki Astari Dec 29 '09 at 7:12
Are you thinking of "qualified name"? Or perhaps "explicit scope resolution"? – outis Dec 29 '09 at 8:42

They are both the same.
*ptr.field dereferences the variable ptr then returns the value of member field.

The -> operator is shorthand notation for the above.

share|improve this answer
Actually, *ptr.field is evaluated as *(ptr.field), not (*ptr).field. – Drew Dormann Dec 28 '09 at 19:59

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