1

I want to serialize and deserialize an object with the built-in functions TJson.JsonToObject<T> and TJson.ObjectToJsonObject. The object contains some nested objects and one of these is of an abstract type. Is there any chance, to tell the deserializer, which concrete object to create? Can I maybe use a custom JSONInterceptor for this nested object?

The classes are defined as following:

type
  TAngPos = class (TObject)
    strict private
      var
        FPrimkey: Integer;
        FAng_ID: Integer;
        FPosNr: Integer;
        FArt_ID: Integer;
      
        FPositionstyp: TPositionstyp; // <--- abstract
  end;
type
  TPositionstyp = class abstract (TObject)
    strict protected
      var
        FArtikel: TArtikel;
  end;
type
  TPositionstypArtikel = class (TPositionstyp);
type
  TPositionstypAngPosKonf = class (TPositionstyp)
    strict private
      var
        FGrundeinheit: TAngPos;
        FEinbaukomponenten: TObjectList<TAngPos>;
  end;
type
  TArtikel = class (TObject)
    strict private
      var
        FPrimkey: Integer;
        FStatus: Integer;
        FTyp: Integer;
        FBeschreibung: string;
        FHerstellerNr: string;
  end;

The corresponding JSON looks like this:

for TPositionstypArtikel:

{
  "primkey": 23930,
  "ang_ID": 2400,
  "posNr": 40,
  "art_ID": 46210,
  "positionstyp": { // PositionstypArtikel
    "artikel": {
      "primkey": 46210,
      "status": 1,
      "typ": 2,
      "beschreibung": "MyDescription",
      "herstellerNr": "MyVendorNr"
    }
  }
}

and for TPositionstypAngPosKonf

{
    "primkey": 2,
    "ang_ID": 1,
    "posNr": 10,
    "art_ID": 44041,
    "positionstyp": { // TPositionstypAngPosKonf
      "grundeinheit": { // <-- TAngPos
        "primkey": 33067,
        "ang_ID": 0,
        "posNr": 20,
        "art_ID": 44092,
        "positionstyp": {
          "artikel": {
            "primkey": 44092,
            "status": 2,
            "typ": 4,
            "beschreibung": "MyDescriptionGrundeinheit",
            "herstellerNr": "MyVendorNrGrundeinheit"
          }
        }
      },
      "einbaukomponenten": { // <-- TObjectList<TAngPos>
        "ownsObjects": true,
        "listHelper": [
          {
            "primkey": 33068,
            "ang_ID": 0,
            "posNr": 30,
            "art_ID": 44399,
            "positionstyp": {
              "artikel": {
                "primkey": 44399,
                "status": 2,
                "typ": 4,
                "beschreibung": "MyDescriptionEinbaukomponente1",
                "herstellerNr": "MyVendorNrEinbaukomponente1"
              }
            }
          },
          {
            "primkey": 33069,
            "ang_ID": 0,
            "posNr": 40,
            "art_ID": 44398,
            "positionstyp": {
              "artikel": {
                "primkey": 44398,
                "status": 2,
                "typ": 4,
                "beschreibung": "MyDescriptionEinbaukomponente2",
                "herstellerNr": "MyVendorNrEinbaukomponente2"
              }
            }
          }
        ]
      },
      "artikel": {
        "primkey": 44041,
        "status": 1,
        "typ": 3,
        "beschreibung": "MyDescriptionKonfKopf",
        "herstellerNr": ""
      }
    }

After deserialization of the object, I can check, if the nested object is of a specific type with the is-operator, but unfortunately it's neither TPositionstypArtikel nor TPositionstypAngPosKonf.

4
  • How do you distinguish which of the derived types shall be returned from the JSON string? – Uwe Raabe Jan 25 at 23:26
  • One of the derived classes contains additional nested objects, so I can distinguish them by the structure of the JSON string. – Raphael Burbach Jan 25 at 23:46
  • Can you provide a simple example (class declarations and JSON strings)? – Uwe Raabe Jan 26 at 8:02
  • Sorry, I cannot see a way to achieve that with TJson.JsonToObject<T> as you cannot see the JSON content when deciding which type to use for a field. You might have more luck by introducing some superclass that combines the fields of all possible inherited classes. For the case shown just TPositionstypAngPosKonf would do, but that is rather a corner case. – Uwe Raabe Jan 26 at 12:39
0

Thanks for the comments. I ended up in changing the structure of the class. It doesn't contain the abstract type anymore, but rather a separate variable of type TPositionstypAngPosKonf, which is either nil or not. The TArtikel from the TPositionstyp now inhabits directly in the TAngPos and the two classes TPositionstyp and TPositionstypArtikel don't exist anymore. So it basically looks like this

type
  TAngPos = class (TObject)
    strict private
      var
        FPrimkey: Integer;
        FAng_ID: Integer;
        FPosNr: Integer;
        FArt_ID: Integer;
      
        FArtikel: TArtikel;
        FPositionstypAngPosKonf: TPositionstypAngPosKonf; // may be nil
  end;
type
  TPositionstypAngPosKonf = class (TObject)
    strict private
      var
        FGrundeinheit: TAngPos;
        FEinbaukomponenten: TObjectList<TAngPos>;
  end;
type
  TArtikel = class (TObject)
    strict private
      var
        FPrimkey: Integer;
        FStatus: Integer;
        FTyp: Integer;
        FBeschreibung: string;
        FHerstellerNr: string;
  end;

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service, privacy policy and cookie policy

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