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Let me use the following example to explain my question:

public string ExampleFunction(string Variable) {
    return something;
}

string WhatIsMyName = "Hello World"';
string Hello = ExampleFunction(WhatIsMyName);

When I pass the variable "WhatIsMyName" to the example function, I want to be able to get a string of the original variables name. Perhaps something like:

Variable.OriginalName.ToString()

Is there any way to do this?

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1  
Hmm, why would you want to do that? I just need to understand the logic behind this –  Jon Limjap Sep 16 '08 at 13:31
    
I think someone wanted the same thing in Ruby. You could search and see if he got any pointers on how to do it. –  Gishu Sep 16 '08 at 13:31
    
This is a recurring theme that drives me nuts. An intellectual question that's going to be used to do something, and instead of an answer.. people want to know why you want to do.. There's enough logic there to answer the question... –  Todd Painton Aug 16 at 21:09

16 Answers 16

up vote 0 down vote accepted

No.I don't think so.

The variable name that you use is for your convenience and readability. The compiler doesn't need it & just chucks it out if I'm not mistaken.

If it helps, you could define a new class called NamedParameter with attributes Name and Param. You then pass this object around as parameters.

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7  
The newer duplicate of this original question may have a possible answer of Yes: stackoverflow.com/questions/9801624/… –  alfa Sep 8 '13 at 10:34
1  
@alfa, the answer you've linked to gives the parameter name, not the argument name passed in to the function as asked for in this question. –  Josh Noe Oct 9 '13 at 16:10

What you want isn't possible directly but you can use Expressions in C# 3.0:

public void ExampleFunction(Expression<Func<string, string>> f) {
    Console.WriteLine((f.Body as MemberExpression).Member.Name);
}

ExampleFunction(x => WhatIsMyName);

Note that this relies on unspecified behaviour and while it does work in Microsoft’s current C# and VB compilers, and in Mono’s C# compiler, there’s no guarantee that this won’t stop working in future versions.

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Any way to do this with a property rather than a local variable? Thanks. –  pbz Apr 3 '09 at 22:16
2  
For the purpose of an Expression, a local variable actually is a property (.Member.Name – this is a direct consequence of the closure created by the compiler to implement the lambda expression) so the above code should also work for properties. –  Konrad Rudolph Apr 6 '09 at 9:01
1  
This answer relies on a non-standardized behaviour of the Microsoft C# compiler, and might break under other compilers or future versions. Refer to my question and answer on the topic. –  Douglas Oct 3 '13 at 21:57
1  
@Douglas Thanks, good to know. For what it’s worth, Eric Lippert’s rant about this seems a bit immature. Other languages do standardise this and his whole rant seems to be predicated on the fact that specifying this behaviour is baaaad, which seems to be quite wrong, or is at least completely non-obvious. On the contrary: this is the natural implementation of the feature, it’s efficient, safe, and there’s no a priori reason not to standardise it. –  Konrad Rudolph Oct 3 '13 at 22:52
static void Main(string[] args)
{
  Console.WriteLine("Name is '{0}'", GetName(new {args}));
  Console.ReadLine();
}

static string GetName<T>(T item) where T : class
{
  var properties = typeof(T).GetProperties();
  Enforce.That(properties.Length == 1);
  return properties[0].Name;
}

More details are in this blog post.

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3  
Link is broken, though the solution looks really neat. Perhaps you could add a few details here? –  Clément May 9 '13 at 20:13
    
@Clément I've fixed the link, cheers! –  Theraot Sep 9 '13 at 14:10

No, but whenever you find yourself doing extremely complex things like this, you might want to re-think your solution. Remember that code should be easier to read than it was to write.

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No. A reference to your string variable gets passed to the funcion--there isn't any inherent metadeta about it included. Even reflection wouldn't get you out of the woods here--working backwards from a single reference type doesn't get you enough info to do what you need to do.

Better go back to the drawing board on this one!

rp

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Three ways:

1) Something without reflection at all:

GetParameterName1(new { variable });

public static string GetParameterName1<T>(T item) where T : class
{
    if (item == null)
        return string.Empty;

    return item.ToString().TrimStart('{').TrimEnd('}').Split('=')[0].Trim();
}

2) Uses reflection, but this is way faster than other two.

GetParameterName2(new { variable });

public static string GetParameterName2<T>(T item) where T : class
{
    if (item == null)
        return string.Empty;

    return typeof(T).GetProperties()[0].Name;
}

3) The slowest of all, don't use.

GetParameterName3(() => variable);

public static string GetParameterName3<T>(Expression<Func<T>> expr)
{
    if (expr == null)
        return string.Empty;

    return ((MemberExpression)expr.Body).Member.Name;
}

To get a combo parameter name and value, you can extend these methods. Of course its easy to get value if you pass the parameter separately as another argument, but that's inelegant. Instead:

1)

public static string GetParameterInfo1<T>(T item) where T : class
{
    if (item == null)
        return string.Empty;

    var param = item.ToString().TrimStart('{').TrimEnd('}').Split('=');
    return "Parameter: '" + param[0].Trim() +
           "' = " + param[1].Trim();
}

2)

public static string GetParameterInfo2<T>(T item) where T : class
{
    if (item == null)
        return string.Empty;

    var param = typeof(T).GetProperties()[0];
    return "Parameter: '" + param.Name +
           "' = " + param.GetValue(item, null);
}

3)

public static string GetParameterInfo3<T>(Expression<Func<T>> expr)
{
    if (expr == null)
        return string.Empty;

    var param = (MemberExpression)expr.Body;
    return "Parameter: '" + param.Member.Name +
           "' = " + ((FieldInfo)param.Member).GetValue(((ConstantExpression)param.Expression).Value);
}

1 and 2 are of comparable speed now, 3 is again sluggish.

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System.Environment.StackTrace will give you a string that includes the current call stack. You could parse that to get the information, which includes the variable names for each call.

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The short answer is no ... unless you are really really motivated.

The only way to do this would be via reflection and stack walking. You would have to get a stack frame, work out whereabouts in the calling function you where invoked from and then using the CodeDOM try to find the right part of the tree to see what the expression was.

For example, what if the invocation was ExampleFunction("a" + "b")?

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I can tell you that I've tried hard to find a way and failed. This was pre-3.5 so you may have better luck. Also, if you can explain your end goal maybe we can find a different solution.

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You could use reflection to get all the properties of an object, than loop through it, and get the value of the property where the name (of the property) matches the passed in parameter.

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Well had a bit of look. of course you can't use any Type information. Also, the name of a local variable is not available at runtime because their names are not compiled into the assembly's metadata.

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Thanks for all the responses. I guess I'll just have to go with what I'm doing now.

For those who wanted to know why I asked the above question. I have the following function:

string sMessages(ArrayList aMessages, String sType) {
	string sReturn = String.Empty;
	if (aMessages.Count > 0) {
		sReturn += "<p class=\"" + sType + "\">";
		for (int i = 0; i < aMessages.Count; i++) {
			sReturn += aMessages[i] + "<br />";
		}
		sReturn += "</p>";
	}
	return sReturn;
}

I send it an array of error messages and a css class which is then returned as a string for a webpage.

Every time I call this function, I have to define sType. Something like:

output += sMessages(aErrors, "errors");

As you can see, my variables is called aErrors and my css class is called errors. I was hoping my cold could figure out what class to use based on the variable name I sent it.

Again, thanks for all the responses.

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GateKiller, what's wrong with my workaround? You could rewrite your function trivially to use it (I've taken the liberty to improve the function on the fly):

static string sMessages(Expression<Func<List<string>>> aMessages) {
    var messages = aMessages.Compile()();

    if (messages.Count == 0) {
        return "";
    }

    StringBuilder ret = new StringBuilder();
    string sType = ((MemberExpression)aMessages.Body).Member.Name;

    ret.AppendFormat("<p class=\"{0}\">", sType);
    foreach (string msg in messages) {
        ret.Append(msg);
        ret.Append("<br />");
    }
    ret.Append("</p>");
    return ret.ToString();
}

Call it like this:

var errors = new List<string>() { "Hi", "foo" };
var ret = sMessages(() => errors);
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Well Try this Utility class,

public static class Utility
{
    public static Tuple<string, TSource> GetNameAndValue<TSource>(Expression<Func<TSource>> sourceExpression)
    {
        Tuple<String, TSource> result = null;
        Type type = typeof (TSource);
        Func<MemberExpression, Tuple<String, TSource>> process = delegate(MemberExpression memberExpression)
                                                                    {
                                                                        ConstantExpression constantExpression = (ConstantExpression)memberExpression.Expression;
                                                                        var name = memberExpression.Member.Name;
                                                                        var value = ((FieldInfo)memberExpression.Member).GetValue(constantExpression.Value);
                                                                        return new Tuple<string, TSource>(name, (TSource) value);
                                                                    };

        Expression exception = sourceExpression.Body;
        if (exception is MemberExpression)
        {
            result = process((MemberExpression)sourceExpression.Body);
        }
        else if (exception is UnaryExpression)
        {
            UnaryExpression unaryExpression = (UnaryExpression)sourceExpression.Body;
            result = process((MemberExpression)unaryExpression.Operand);
        }
        else
        {
            throw new Exception("Expression type unknown.");
        }

        return result;
    }


}

And User It Like

    /*ToDo : Test Result*/
    static void Main(string[] args)
    {
        /*Test : primivit types*/
        long maxNumber = 123123;
        Tuple<string, long> longVariable = Utility.GetNameAndValue(() => maxNumber);
        string longVariableName = longVariable.Item1;
        long longVariableValue = longVariable.Item2;

        /*Test : user define types*/
        Person aPerson = new Person() { Id = "123", Name = "Roy" };
        Tuple<string, Person> personVariable = Utility.GetNameAndValue(() => aPerson);
        string personVariableName = personVariable.Item1;
        Person personVariableValue = personVariable.Item2;

        /*Test : anonymous types*/
        var ann = new { Id = "123", Name = "Roy" };
        var annVariable = Utility.GetNameAndValue(() => ann);
        string annVariableName = annVariable.Item1;
        var annVariableValue = annVariable.Item2;

        /*Test : Enum tyoes*/
        Active isActive = Active.Yes;
        Tuple<string, Active> isActiveVariable = Utility.GetNameAndValue(() => isActive);
        string isActiveVariableName = isActiveVariable.Item1;
        Active isActiveVariableValue = isActiveVariable.Item2;
    }
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Yes! It is possible. I have been looking for a solution to this for a long time and have finally come up with a hack that solves it (it's a bit nasty). I would not recommend using this as part of your program and I only think it works in debug mode. For me this doesn't matter as I only use it as a debugging tool in my console class so I can do:

int testVar = 1;
bool testBoolVar = True;
myConsole.Writeline(testVar);
myConsole.Writeline(testBoolVar);

the output to the console would be:

testVar: 1
testBoolVar: True

Here is the function I use to do that (not including the wrapping code for my console class.

    public Dictionary<string, string> nameOfAlreadyAcessed = new Dictionary<string, string>();
    public string nameOf(object obj, int level = 1)
    {
        StackFrame stackFrame = new StackTrace(true).GetFrame(level);
        string fileName = stackFrame.GetFileName();
        int lineNumber = stackFrame.GetFileLineNumber();
        string uniqueId = fileName + lineNumber;
        if (nameOfAlreadyAcessed.ContainsKey(uniqueId))
            return nameOfAlreadyAcessed[uniqueId];
        else
        {
            System.IO.StreamReader file = new System.IO.StreamReader(fileName);
            for (int i = 0; i < lineNumber - 1; i++)
                file.ReadLine();
            string varName = file.ReadLine().Split(new char[] { '(', ')' })[1];
            nameOfAlreadyAcessed.Add(uniqueId, varName);
            return varName;
        }
    }
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Do this

var myVariable = 123;
myVariable.Named(() => myVariable);
var name = myVariable.Name();
// use name how you like

or naming in code by hand

var myVariable = 123.Named("my variable");
var name = myVariable.Name();

using this class

public static class ObjectInstanceExtensions
{
    private static Dictionary<object, string> namedInstances = new Dictionary<object, string>();

    public static void Named<T>(this T instance, Expression<Func<T>> expressionContainingOnlyYourInstance)
    {
        var name = ((MemberExpression)expressionContainingOnlyYourInstance.Body).Member.Name;
        instance.Named(name);            
    }

    public static T Named<T>(this T instance, string named)
    {
        if (namedInstances.ContainsKey(instance)) namedInstances[instance] = named;
        else namedInstances.Add(instance, named);
        return instance;
    }        

    public static string Name<T>(this T instance)
    {
        if (namedInstances.ContainsKey(instance)) return namedInstances[instance];
        throw new NotImplementedException("object has not been named");
    }        
}

Code tested and most elegant I can come up with.

share|improve this answer
    
I personally prefer naming by hand as using the expression option means the variable references itself therefore hifing intellisense IDE helpers from highlighting references to used variable. A little more time consuming but generally more readable. –  kernowcode Jun 6 at 9:41
    
but, if you are using really descriptive variable names then the former would be very useful. –  kernowcode Jun 6 at 9:43

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