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Take this small example class (not my real code, but it exposes the problem):

Convert = class(TObject)
  public
    class function ToString(value: Double): String; overload;
    class function ToString(value: TDateTime): String; overload;
  end;

It compiles fine until you try to use the Double or TDateTime functions As In:

var
  d: Double;
begin
  d := 99.99;
  ShowMessage(Convert.ToString(d));

You will get this compile error: Ambiguous overloaded call to 'ToString'. The problem boils down to the fact that TDateTime is a type of Double

My Question: how do You deal with this type of problem?

EDIT - I am NOT looking for a solution for the example given

I have found 3 Solutions so far:

  • Rename one of the 2 functions
  • Add a "Dummy" parameter to one of the 2 functions
  • Change the parameters to Var types, this has the disadvantage that I can no longer call this function with constants

are there any other solutions out there?

share|improve this question
    
I rename those DateTime functions –  Sir Rufo Jan 5 '13 at 8:22
1  
@CosminPrund: Renaming them all is out of the question (in reality I have 30+ overloads) –  whosrdaddy Jan 5 '13 at 8:39
1  
@whosrdaddy, then post real code that exposes your problem. –  LU RD Jan 5 '13 at 9:14
3  
@LURD ShowMessage( Convert.ToString( 99.99 ) ); that causes the E2251 compiler error –  Sir Rufo Jan 5 '13 at 9:24
1  
@SirRufo, Convert.ToString( Double(Variant(99.99))) works. –  LU RD Jan 5 '13 at 10:24

3 Answers 3

up vote 11 down vote accepted

Overloaded methods can be very effective. However, as soon as there is a hint of ambiguity they become a liability. A good example of this are the new TStream overloads introduced in XE3. It's not hard to fall into a trap where the compiler chooses an overload that you weren't expecting. At least in your code the compiler stopped. In that sense you were lucky.

So my advice, in your situation, is to abandon overloads. Express the different input types in the method name. Yes it's a little more verbose, but you won't make any mistakes, and you code will compile!

share|improve this answer
    
mmm, so no Hidden Golden Egg? That's a pity :) –  whosrdaddy Jan 5 '13 at 9:06
    
+1, totally agree. I fell once in one of these compiler traps (on Delphi 2006) and I went nuts until I discovered what happened –  Guillem Vicens Jan 5 '13 at 9:09
    
Is it possible to use generics here ? TConvert.ToString<T>(value : T):string –  teran Jan 5 '13 at 9:25
    
@teran That sounds plausible. The implementation would stuff value into a TValue and go from there, I guess. –  David Heffernan Jan 5 '13 at 9:29
    
Sadly, it seems this is the most sane thing to do ;) –  whosrdaddy Jan 5 '13 at 11:28

Your posted example compiles and executes fine in XE.

In a comment you give this example instead:

ShowMessage( Convert.ToString( 99.99 ));  // <- gives compiler error 2251

In this particular case the solution is to explicitly define the type( I thought):

ShowMessage( Convert.ToString( Double(99.99) )); // <- E2089, Invalid Typecast

Looking into the documentation:

This error message is issued for type casts not allowed by the rules. The following kinds of casts are allowed:

  • Ordinal or pointer type to another ordinal or pointer type
  • A character, string, array of character or pchar to a string
  • An ordinal, real, string or variant to a variant
  • A variant to an ordinal, real, string or variant
  • A variable reference to any type of the same size.

So, to explicitly tell the compiler to select the Double overloaded function:

ShowMessage( Convert.ToString( Double(Variant(99.99)))); // Ok

A bit convoluted perhaps. But for the other overloaded function it is simpler:

ShowMessage( Convert.ToString( EncodeDate(2013,1,5));

Update


To make this a generic solution working for all classes, consider adding class functions to resolve your ambiguous types.

Convert = Class(TObject)
  ...
  class function AsDouble( value: Double) : Double; inline; static;
  class function AsTDateTime( value: TDateTime) : TDateTime; inline; static;
end;

class function Convert.AsDouble(value: Double): Double;
begin
  Result := Value;
end;
class function Convert.AsDateTime(value: TDateTime): TDateTime;
begin
  Result := Value;
end;

Now you can call your overloaded class function with constants:

ShowMessage( Convert.ToString( Convert.AsDouble(99.99)));   
share|improve this answer
    
My answer is more about how to specify the intended type for an overloaded function call, in those cases the compiler is not able to resolve that without help. –  LU RD Jan 5 '13 at 11:35
    
I see, typecasting could be a solution but I then I prefer renaming the function :) (+1 for your answer) –  whosrdaddy Jan 5 '13 at 12:05
    
It seems a little awkward to convert something from integers, to a string, to a date, back to a string again... –  Jerry Dodge Jan 7 '13 at 17:12
    
@JerryDodge, typed in wrong parameters, corrected. Thanks. –  LU RD Jan 7 '13 at 18:13

How about collapsing it all?:

class function Convert.ToString(value: Variant): String;
begin
   Result := VarToStr(Value);
end;
share|improve this answer
    
The point is not about a String Conversion but how you would deal with ambiguous overload parameters. This solution has one big problem, it opens the parameter possibility to more types than intended –  whosrdaddy Jan 5 '13 at 11:26
    
My point isn't about a string either ;-) but about the variant. You're right about the 'more types then intended' but if it's the OP's own code he can just support the intended types and uses an 'else' or an assertion for the rest. –  Jan Doggen Jan 5 '13 at 19:27
    
I was actually going to suggest this and then I saw your answer, Rather than immediately calling VarToStr() you can instead check the type of the value and handle it differently accordingly. –  Jerry Dodge Jan 7 '13 at 17:09
    
PS - Commenter is the OP, and also, perhaps you should demonstrate the type checking / handling in the code of your answer :) –  Jerry Dodge Jan 7 '13 at 17:10

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