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I am trying to learn C# and I am familiar with the C++ struct pointing notation -> and I was curious if that crossed over into C#.


someStruct->someAttribute += 1;
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migrated from programmers.stackexchange.com Jun 19 '11 at 21:29

This question came from our site for professional programmers interested in conceptual questions about software development.

This should probably be on stackoverflow. –  Peter Alexander Jun 19 '11 at 18:50
I've never seen more massively upvoted, massively wrong, answers on a Programmers.SE question! –  Billy ONeal Jun 19 '11 at 21:06
@Billy, if the answers given below are wrong, I'm sure we'd all appreciate if you came up with a right answer. –  kba Jun 19 '11 at 21:32
@Kristian: I downvoted the wrong ones and upvoted the right ones. Some of them are right -- all the answers saying "C# does not have pointers" or "C# does not expose pointers to the user" are 110% wrong. (Really Macke's is the only right answer) –  Billy ONeal Jun 19 '11 at 21:33

4 Answers 4

up vote 22 down vote accepted

There is pointer notation in C#, but only in special cases, using the unsafe keyword.

Regular objects are dereferenced using ., but if you want to write fast code, you can pin data (to avoid the garbage collector moving stuff around) and thus "safely" use pointer arithmetic, and then you might need ->.

See Pointer types (C# Programming Guide) and a bit down in this example on the use of -> in C#.

It looks something like this (from the last link):

struct MyStruct 
    public long X; 
    public double D; 

unsafe static void foo() {
   MyStruct myStruct = new MyStruct(); 
   pMyStruct = & myStruct;

   // access:

   (*pMyStruct).X = 18; 
   (*pMyStruct).D = 163.26;

   // or

   pMyStruct->X = 18; 
   pMyStruct->D = 163.26;
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Just a note: (*a).b is equivalent to a->b in both C# and C++. –  Rei Miyasaka Jun 19 '11 at 22:40
The one thing I'd add to that is that you could easily spend years as a C# developer, working in the domains that C# is frequently used for, and never once have any reason to use unsafe code or a pointer. I never have. –  Carson63000 Jun 20 '11 at 0:45
@Carson63000: Yeah. unsafe is probably only needed if you feel that you should rewrite a small algorithm in C++ or C. In those cases, writing the code using unsafe at first might be better than the hassle of writing/integrating/shipping a piece of native code with your app. –  Macke Jun 20 '11 at 6:29
Also, nice about the many upvotes. I'm a C++ guy most of the time. Should learn more C# to get more rep, as I never get that many upvotes on my C++ answers. ;-) –  Macke Jun 20 '11 at 6:32

C# doesn't differentiate between pointers and references. In effect everything is a reference so uses the . notation.

Edit: as is pointed out in the comments below it's not as simple as that. There are reference types and value types. What I meant above is that there is no distinction between reference types and pointer types.

Edit2: Although apparently there is if you're using the unsafe parts of c#! I've learnt something today!

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Not everything in C# is a reference. Variables of primitive types such as int are not references, and types declared with struct are not references. –  Peter Alexander Jun 19 '11 at 19:29
C# does differentiate between pointers and references, and you can use pointers in an unsafe context: msdn.microsoft.com/en-us/library/y31yhkeb%28v=vs.80%29.aspx –  Lee Jun 19 '11 at 20:09

It's interesting that C# decided to use . rather than -> to reference a member of an object referred to by a class reference, since the semantics are closer to those of C's -> operator than its . operator. For example, in C, if one sees the code a=b; a.X=5; one would recognize that it's writing to field X of some struct a, which is a different struct from b. By contrast, if one sees the code a=b; a->X=5; one would recognize that it's writing to field X of the struct pointed to by both a and b. In C#, the behavior of the code in question would depend upon whether the type of b is a class or a struct.

The addition of generics to C#, however, would have been difficult if C# had used different dereferencing operators for class and struct types, since it's possible for a particular piece of code to dereference an instance of an interface- constrained type without knowing whether the type in question is a struct or a class; it's unclear which operator should be used if structs used a different operator from classes.

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While C# has pointers behind the scenes they are totally hidden from the user. You can't get at a pointer to dereference it. You only have the dot notation to access something inside something, whether the original is a pointer or not is hidden from you.

The only way you are even aware of pointers is things that pass by reference rather than passing by value.

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(1) unsafe code has pointers. (2) C# does not, by default, pass by reference (although, unlike Java where this myth is even more prelevant, it can if the programmer asks for it) - that would mean void f(T x) { x = ...; } would change the caller's variable x if called as f(x). Most things are a references, yes. But those references are passed by value. You can mutate what's behind those references (object members, for instance), but that's not what "pass by reference" means. –  delnan Jun 19 '11 at 21:16

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