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What I am trying to do is to have an array of references to variables. By which I mean the equivalent to a C array of pointers to ints (for example).

Example: (!!not real code!!)

int a = 4;
int b = 5;
int c = 6;
List<ref int> tmp = new List<ref int>();

tmp.Add(ref a);
tmp.Add(ref b);
tmp.Add(ref c);

tmp[0] = 16;
tmp[1] = 3;
tmp[2] = 1000;

Console.Writeline(tmp[0] + " " + a); // 16 16
Console.Writeline(tmp[1] + " " + b); // 3 3
Console.Writeline(tmp[2] + " " + c); // 1000 1000

The specifics of my case: I have a list of strings that will correspond to the keys in a dictionary. What I think I want to have is a list of Tuples where Type1 is a reference to either an int or string, and Type2 is a reference to an Textbox.

I will be iterating through this list, using the string to get the value from the dictionary (and doing stuff with that data) then storing the results of that into Type1. And eventually I will be taking the data from those Type1 variable references and copying their data to the corresponding Type2 Textbox.

That's the gist of what I think I want to do. If someone thinks that my approach is overly complicated, I will say that I need to keep the Textboxes as they are sadly, so I can't just make an array and iterate through it. And it would be perferable to keep the Type1 variables seperate too, though not quite as necessary.

Now, from reading around, I thought Func<> looked like it was the closest thing to being useful for what I want, so I tried to use the following (with Type1, as an object because it needs to handle both ints and strings)

List<Tuple<string, Func<object>, Func<object>>>

but I was unsure how to use that to get references to the variables.

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"If someone thinks that my approach is overly complicated, I will say that I need to keep the Textboxes as they are sadly, so I can't just make an array and iterate through it." - What does this mean? –  Adam Robinson Jun 19 '13 at 12:28
    
you can use pointers in this case, use unsafe keyword for method and set project unsafe to allow pointers in c#, also you can encapsulate the value in a class and in C# each class is of reference type –  ahmedsafan86 Jun 19 '13 at 12:29
    
@Ahmedsafan: While I disagree with the advisability of what you suggest, that should be an answer, not a comment. –  Adam Robinson Jun 19 '13 at 12:30
    
not sure if I have understood your question well but you can use generics check link . Func delegates are not really necessary until one is doing async or delay progamming model –  Rameez Ahmed Sayad Jun 19 '13 at 12:32
    
OK, anyway I was trying to give a solution for the technical problem regardless of it's usage. –  ahmedsafan86 Jun 19 '13 at 12:34

3 Answers 3

up vote 3 down vote accepted

What you're specifically asking for isn't possible; what would be more appropriate (and has the convenience of actually working!) would be to design a class structure around what you're trying to do.

For instance, something like this:

public class MyObject // Name it appropriately
{
    public object Value { get; set; }
    public string Key { get; set; }
    public TextBox TextBox { get; set; }
}

Then, in your code, you can do something akin to this...

Dictionary<string, object> values = ...
List<MyObject> objects = ...

foreach(var item in objects)
{
    item.Value = values[item.Key];

    // process your data

    item.TextBox = item.Value.ToString();
}

Obviously, this is just a rough design and the class here serves as little more than a data transfer container. You could make the class "smarter" by, for example, using the setter for the Value property to set the value of the TextBox automatically. But this should hopefully give you the general idea of how something like this would be done in an OO fashion.

EDIT Here's how your example would look.

MyObject a = new MyObject() { Value = 4 };
MyObject b = new MyObject() { Value = 5 };
MyObject c = new MyObject() { Value = 6 };
List<MyObject> tmp = new List<MyObject>();

tmp.Add(a);
tmp.Add(b);
tmp.Add(c);

tmp[0].Value = 16;
tmp[1].Value = 3;
tmp[2].Value = 1000;

Console.Writeline(tmp[0].Value.ToString() + " " + a.Value.ToString()); // 16 16
Console.Writeline(tmp[1].Value.ToString() + " " + b.Value.ToString()); // 3 3
Console.Writeline(tmp[2].Value.ToString() + " " + c.Value.ToString()); // 1000 1000
share|improve this answer
    
If when I create a MyObject, and set the textbox equal to an existing Texbox on the form, then set the textbox.Text property to something, and that updates whatever was on the form, then this is exactly what I want. If not, I dont see how this would help –  DanielCardin Jun 19 '13 at 13:04
    
@DanielCardin: Yes, it will. As a TextBox is a class (and thus a reference type), then changing a property or any other instance-specific information will be visible anywhere in the program that has access to this instance. In other words, it will do what you want. You might find this interesting. While it's specifically targeted at parameter passing, the information in there is true for all variables. –  Adam Robinson Jun 19 '13 at 13:06
    
and the same would apply to Value just because its in this class? –  DanielCardin Jun 19 '13 at 13:21
    
@DanielCardin: Correct. –  Adam Robinson Jun 19 '13 at 13:35
    
I don't know if I just did it wrong, but I tried this out, and it correctly sets the texbox.text like I want it to, but it doesnt seem to change what I input for Value. Meaning with something like new MyObject("test", existingInt, existingTextbox);, it will change existingTextbox, but printing out existingInt will not be what I changed Value to. –  DanielCardin Jun 19 '13 at 13:47

You can't store references using C#. You can only use the ref keyword when calling a method.

You can use pointers, but you can only do that with a fixed expression and within an unsafe context.

It is possible to fake this kind of thing using delegates, but I'm not sure if it's what you're looking for. I'm also fairly sure that you really need to redesign your approach, but nevertheless, here's an example of how you can fake it...

Firstly, write a "value wrapper" class like so:

public class ValueWrapper<T>
{
    readonly Func<T>   get;
    readonly Action<T> set;

    public ValueWrapper(Func<T> get, Action<T> set)
    {
        this.get = get;
        this.set = set;
    }

    public T Value
    {
        get
        {
            return get();
        }

        set
        {
            set(value);
        }
    }
}

Then you can use that to change values:

void run()
{
    int x = 0;

    var intWrapper = new ValueWrapper<int>(() => x, value => x = value);

    test(intWrapper);

    Console.WriteLine(x);  // Prints 42, which shows that x was changed.

    TextBox textBox = new TextBox {Text = ""};

    var stringWrapper = new ValueWrapper<string>(() => textBox.Text, value => textBox.Text = value);

    test(stringWrapper);

    Console.WriteLine(textBox.Text); // Prints "Changed".
}

static void test(ValueWrapper<int> wrapper)
{
    wrapper.Value = 42;
}

static void test(ValueWrapper<string> wrapper)
{
    wrapper.Value = "Changed";
}

You can also create a wrapper in one method and pass it to a different method which uses the wrapper to change a property in the original wrapped object, like so:

void run()
{
    TextBox textBox = new TextBox {Text = ""};

    var wrapper = test1(textBox);
    test2(wrapper);
    Console.WriteLine(textBox.Text); // Prints "Changed"
}

void test2(ValueWrapper<string> wrapper)
{
    wrapper.Value = "Changed";
}

ValueWrapper<string> test1(TextBox textBox)
{
    return new ValueWrapper<string>(() => textBox.Text, value => textBox.Text = value);
}

Warning: This does lead to some fairly head-scratching code, for example:

void run()
{
    var intWrapper = test();
    intWrapper.Value = 42;
    Console.WriteLine(intWrapper.Value); // Works, but where is the value? It can't be the x inside test()!
}

ValueWrapper<int> test()
{
    int x = 0;
    var intWrapper = new ValueWrapper<int>(() => x, value => x = value);
    return intWrapper;
}

So we returned a ValueWrapper from test() which is apparently wrapping a local variable from inside test(). And then we can apparently change the value and print it out...

This isn't really what's happening, of course, but it can be quite confusing!

share|improve this answer
    
+1, though I'm curious why the get and set delegates (rather than just storing the value in an instance variable) –  Adam Robinson Jun 19 '13 at 12:46
    
@AdamRobinson Because I specifically wanted to change the original value, i.e. the value of x on the stack in the test() method. Note how the value of x actually changes when we call the test() method, which makes it appear as if a reference to x has somehow been used inside test(). The magic of captured variables. :) –  Matthew Watson Jun 19 '13 at 12:50
    
I'm aware of what closures can do, but considering it's actually (in reality) doing the very same thing (creating a class to house the local variable, then replacing every access of the local variable after the closure with an access of the property on an instance of that class) but without the overhead of delegate invocation, I don't really see the advantage. There is, in fact, no magic :) –  Adam Robinson Jun 19 '13 at 13:00
    
@AdamRobinson I mean, if you look at the line Console.WriteLine(x); it is using x directly, not the value wrapper. And you can see that x has been changed. I'm specifically not "replacing every access with an access of the property" (by which I think you mean using the wrapper instead of the original value). The changes made by the wrapper are visible to the code that is using the original value, that's the important point. –  Matthew Watson Jun 19 '13 at 13:09
    
In your code, yes, but not in reality. Take a look at the available documentation on closures and capturing variables in anonymous delegates. These features are entirely syntactic sugar; they are not actually expanding the scope or visibility of an instance variable outside of the declaring function (as that's impossible). Or, better yet, look at the IL. You will find that the IL does exactly as I describe. –  Adam Robinson Jun 19 '13 at 13:10

you can use pointers in this case, use unsafe keyword for method and set project unsafe to allow pointers in c#, also you can encapsulate the value in a class and in C# each class is of reference type

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