Announcing Stack Overflow Documentation

We started with Q&A. Technical documentation is next, and we need your help.

Whether you're a beginner or an experienced developer, you can contribute.

Sign up and start helping → Learn more about Documentation →

Considering such an enumeration :

  TTypeOfData = (
    [XmlName('ABC')] todABC,
    [XmlName('DEF')] todDEF,  
    [XmlName('GHI')] todGHI

Where XmlName is a custom attribute used to define the serialization string for members of this enumeration.

How can I explore the attributes attached to each member of this enumeration ?

share|improve this question
up vote 14 down vote accepted

Attributes associated with elements in enumerations are not currently stored in Win32 RTTI data in the executable. RTTI is already responsible for a fair increase in the size of executables, so some lines had to be drawn somewhere. Attributes in Delphi Win32 are supported on types, on fields of records, and fields, methods, their parameters, and properties of classes.

The attribute declarations don't cause errors because of backward compatibility with Delphi for .NET.

share|improve this answer
Good explanation. But IMO in that case, they ought to cause an "unsupported language feature" warning, like other invalid attribute use does. – Mason Wheeler Jan 25 '10 at 20:11

While Barry clearly answered your question regarding the attributes on enum elements, I'll take a stab at another suggestion. From your example, you're prefixing each enum element with 'tod' as is traditional in Delphi because enum elements are global in scope (ie. if you had an identifier todABC in scope in addition to the todABC enum elements, you could get some odd behaviors).

Starting in D2007, we introduced the notion of "scoped enums" which, when enabled, require you to qualify the enum element with the identifier of the enum itself. For instance:

  TTypeOfData = (ABC,DEF,GHI);

Will require you to refer to the ABC element as TTypeOfData.ABC. This allows you to use non-prefixed enum element identifiers and not run the risk of having conflicts since the elements are "scoped" to the enumeration. Any enum declared while {$SCOPEDENUMS} is enabled will behave in this manner.

Given that, you can now safely use the RTTI to get the actual enum element names in the format you wish.

share|improve this answer
Thank you Allen, That was a bad example. My enumeration is a bit more complex and serialized strings are not the same as the enumeration members. – ZeDalaye Jan 26 '10 at 7:35
Phew, that is cool! Didn't know that, always disliked the global clutter vs. ugly prefixes compromise one had to make with enum... – Robert Giesecke Jan 26 '10 at 13:38
@ZeDalaye, I suspected that, however if there is some nugget of usefulness in my suggestion... If not, I'm sure someone may find it useful. – Allen Bauer Jan 26 '10 at 17:20
What a cool hack! Nice one Allen! I would have added "you can safely use classic RTTI TypInfo OR the new RTTI, to get the enum element names". – Warren P Aug 7 '10 at 23:08

These is a good overview of RTTI in Delphi 2010 on the web: http://robstechcorner.blogspot.com/2009/09/so-what-is-rtti-rtti-is-acronym-for-run.html

You can get the enumeration values and back the ordinals using the "OLD" RTTI functions in the unit TypInfo (GetEnumValue, GetEnumName). And clip off the lowercase letters you get the same result as above but it is not as flexible.

share|improve this answer

Ok I think I have found a better solution. I declare a new attribute type, e.g.:

TEnumAttribute = class (TCustomAttribute)
    FCaption : string;
    constructor Create (const Caption : string);
    property Caption : string read FCaption write FCaption;

Now I add attributes to my enumeration:

[TEnumAttribute ('Normal')]
[TEnumAttribute ('High')]
TExampleEnum = (eeNormal,eeHigh);

Now it is easy to access the attributes by its ordinal:

RttiType := RttiContext.FindType ('ExampleUnit.TExampleEnum');
RttiAttributes := Rttitype.GetAttributes;
Test := TEnumAttributes(RttiAttributes[index]).Caption;
share|improve this answer
great!! the most close answer to this question.. – pragmatic_programmer Aug 6 '12 at 16:04

For those who are interrested in a practical solution to that problem, I solved it that way :

  TTypeOfData = (todABC, todDEF, todGHI);

  TMySerializableClass = class
    FType: TTypeOfData;
    property &Type: TTypeOfData read FType write FType;
    class function TypeOfDataAsString(&Type: TTypeOfData): String;


class function TMySerializableClass.TypeOfDataAsString(&Type: TTypeOfData): String;
  TYPE_STRING: array[TypeOfDataAsString] of String = ('ABC', 'DEF', 'GHI);
  Result := TYPE_STRING[&Type];

And later, in the serialization code, I use RTTI to look for a class function conventionnaly named AsString and call it with the property TValue :

procedure Serialize(const V: TValue);
  N: String;
  T: TRttiType;
  F: TRttiField;
  M: TRttiMethod;
  R: TValue;
   case V.TypeInfo^.Kind of
     T := Ctx.GetType(TypeInfo(TMySerializableClass));
     N := V.TypeInfo.Name + 'AsString';
     if N[1] = 'T' then
       Delete(N, 1, 1);
     M := T.GetMethod(N);
     if (M <> nil) and M.IsClassMethod and (M.MethodKind = mkClassFunction) and (M.ReturnType.TypeKind = tkUString) then
       R := M.Invoke(TTicket, [V]);
       // serialize R.AsString
share|improve this answer
This is a reasonable solution. I really like Allen Bauer's suggestion too. – Warren P Aug 7 '10 at 23:10
Whats the & in property &Type for? – Shannon Mar 27 '13 at 3:07
Type is a reserved word in Delphi. Prefixing with & makes possible to use that word as an identifier. – ZeDalaye Apr 5 '13 at 13:24

I use and array of string in the const section:

  TTypeOfData = (

  TypeOfDataText: array[TTypeOfData] of string = (
share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.