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Is there a way to store a pointer to immutable types like strings in C#? How can execute: Instance1.SomeFunction(out MyString);

,and store a pointer to MyString inside of Instance1?

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It is not clear what problem you are trying to solve here. Who needs pointers when string variables already are references? –  Henk Holterman Feb 19 '09 at 21:52
    
C# seems to have been designed to hide pointers from the programmer. Generally speaking, pointer manipulation unnecessarily complicates C# code, as there's usually a far simpler way to do what you want. –  Whatsit Feb 19 '09 at 23:12
    
If string variables are references, why the following will have no effect on "s": void main() { string s = "original string"; test1(ref s); test2(); } static string r; static void test1(ref string s) { r = s; } static void test2() { r = "changed string"; } –  AareP Feb 20 '09 at 16:27
    
No, but you are right. There's no need for pointers in C#. My question was more of theoretical kind. I was just trying to write C code in C#, and though it was possible, since new language implements at least some kind of native pointers. –  AareP Feb 20 '09 at 16:30

4 Answers 4

In regards to the answer by the asker, what's wrong with:

class Program
{
    static void Main()
    {
        string str = "asdf";
        MakeNull(ref str);
        System.Diagnostics.Debug.Assert(str == null);
    }

    static void MakeNull(ref string s)
    {
        s = null;
    }

}
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Here you cannot store pointer to "s" for later use, for example if you would want to change it later, outside of MakeNull execution. You could do it with normal managed types, because objects are passed by reference by default, but not with immutable string type. –  AareP Feb 20 '09 at 9:59
    
@AareP: Yes We Can (keep references to all sorts of managed stuff, all over the pace if we want to). You are not making much sense, or at least not explaining your problem(s) very well. –  Henk Holterman Feb 20 '09 at 13:18
    
What I mean is that the following will have no effect on "s": void main() { string s = "original string"; test1(ref s); test2(); } static string r; static void test1(ref string s) { r = s; } static void test2() { r = "changed string"; } –  AareP Feb 20 '09 at 15:13
    
I had to copy&paste that :-) But it has no effect on s simply because s only appears on the right side of an assignment. No reason it should change. Nor would it change if s had been a pointer to a mutable string. –  Henk Holterman Feb 20 '09 at 19:28
    
Continued: You seem to want r to be a pointer-to-ref or ref-to-ref. C# can't do that on strings, on purpose. You can always approsch it by other means. –  Henk Holterman Feb 20 '09 at 19:35

Use this class as a pointer (note: untested notepad code, might need some fixing):

public class Box<T> {
    public Box(T value) { this.Value = value; }

    public T Value { get; set; }

    public static implicit operator T(Box<T> box) {
        return box.Value;
    }
}

For example,

public void Test() {
    Box<int> number = new Box<int>(10);
    Box<string> text = new Box<string>("PRINT \"Hello, world!\"");

    Console.Write(number);
    Console.Write("    ");
    Console.WriteLine(text);

    F1(number, text);

    Console.Write(number);
    Console.Write("    ");
    Console.WriteLine(text);
    Console.ReadKey();
}

void F1(Box<int> number, Box<string> text) {
    number.Value = 10;
    text.Value = "GOTO 10";
}

Should output

10    PRINT "Hello, world!"
20    GOTO 10
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For me renaming all string and int variables to box<string> and box<int> sounds like a lot of work. May be I'm too lazy.. :) –  AareP Feb 20 '09 at 9:52
    
Think about it like this Box<int> is C#'s syntax for int*. It's the only replacement you'll find to pointers, I believe. –  configurator Feb 23 '09 at 0:01

I have been fighting with pointers in C# for a while now, and was amazed by the lack of options. You encounter all kinds of obscure obstacles when dealing with pointers and pointer arguments in C#:

  • you cannot create native pointers to managed types, not even to strings
  • you cannot save immutable out/ref-arguments for later usage
  • you cannot have optional/nullable out/ref-arguments, even though "null" is the default state of string type
  • you cannot use passed out/ref-arguments inside lambda expressions

Pretty neat solution I found recently, and also the reason for this post is:

void Test()
{
  string ret = "";
  SomeFunction(a=>ret=a);
}

void SomeFunction(string_ptr str)
{
   str("setting string value");
}

delegate void string_ptr(string a);
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This should be an edit in the question. –  configurator Feb 19 '09 at 22:31
    
And the delegate is not a pointer - it's a setter (you can't get the value with it). –  configurator Feb 19 '09 at 22:33
    
Here's delegate with setter ability :) static void Main() { string s = "s"; test(a=>s=a??s); } static void test(string_ptr s) { string r1 = s(null); s("change string"); string r2 = s(null); } delegate string string_ptr(string a); –  AareP Feb 20 '09 at 15:17
    
* setter ability -> getter ability –  AareP Feb 20 '09 at 15:17
    
@AareP: interesting workaround. –  configurator Feb 23 '09 at 0:03

Ok, I found another partial solution to my problem. You can use overloading, if you want some ref/out-arguments to have null values:

void Test()
{
    string ret1 = "", ret2 = "";
    SomeFunction(ref ret1, ref ret2);
    SomeFunction(null, ref ret2);
    SomeFunction(ref ret1, null);
    SomeFunction(null,null);
}

string null_string = "null";

void SomeFunction(ref string ret1,ref string ret2)
{
   if( ret1!=null_string )
       ret1 = "ret 1";
   if( ret2!=null_string )
       ret2 = "ret 2";
}

// Additional overloads, to support null ref arguments
void SomeFunction(string ret1,ref string ret2)
{
    Debug.Assert(ret1==null);
    SomeFunction(null_string,ret2);
}
void SomeFunction(ref string ret1,string ret2)
{
    Debug.Assert(ret2==null);
    SomeFunction(ret1,null_string);
}
void SomeFunction(string ret1,string ret2)
{
    Debug.Assert(ret1==null&&ret2==null);
    SomeFunction(null_string,null_string);
}
share|improve this answer
    
Ok, there is small bug with this solution, that I couldn't yet remove. Apparently c# doesn't support "===" operator, so I can't distinguish normal strings from "null_string"... –  AareP Jun 3 '09 at 6:15

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