We use a TList<TFunc<Boolean>> with some function ... of objects in it and now want to Remove() some of the entries again. But it doesn't work because obviously you simply can not compare these reference to ... thingies reliably.

Here's some test code:

program Project1;



  TFoo = class
  strict private
    FValue: Boolean;
    constructor Create();
    function Bar(): Boolean;

{ TFoo }

function TFoo.Bar: Boolean;
  Result := FValue;

constructor TFoo.Create;

  FValue := Boolean(Random(1));

function IsEqual(i1, i2: TFunc<Boolean>): Boolean;
  Result := TEqualityComparer<TFunc<Boolean>>.Default().Equals(i1, i2);

  s: string;
  foo: TFoo;
  Fkt1, Fkt2: TFunc<Boolean>;

    Foo := TFoo.Create();

    WriteLn(IsEqual(Foo.Bar, Foo.Bar));             // FALSE (1)
    WriteLn(IsEqual(Foo.Bar, TFoo.Create().Bar));   // FALSE (2)

    Fkt1 := function(): Boolean begin Result := False; end;
    Fkt2 := Fkt1;
    WriteLn(IsEqual(Fkt1, Fkt2));                   // TRUE  (3)

    Fkt2 := function(): Boolean begin Result := False; end;
    WriteLn(IsEqual(Fkt1, Fkt2));                   // FALSE (4)

    Fkt2 := function(): Boolean begin Result := True; end;
    WriteLn(IsEqual(Fkt1, Fkt2));                   // FALSE (5)

    on E:Exception do
      Writeln(E.Classname, ': ', E.Message);

We tried virtually everything, = operator, comparing pointers, etc..

We even tried some really nasty things like repeatedly casting to PPointer and dereferencing until we get equal values, but that of course didn't yield satisfying results either =).

  • Case (2), (4) and (5) are OK, as there are in fact distinct functions.
  • Case (3) is trivial and OK, too.
  • Case (1) is what we want to detect, and this is what we can't get to work.

I fear, Delphi stealthily creates two distinct anonymous functions that forward the call to Foo.Bar. In this case we'd be completely powerless, unless we wanted to wade through a morass of unknown memory... and well, we don't.

  • +1 because those anonymous references are weired. What's in them? I just did var F: TFunc<Boolean>; ShowMessage(IntToStr(SizeOf(F))); - it shows 1 for my Delphi 2010! how can that be? – Cosmin Prund Mar 1 '11 at 11:34
  • What are those cases you’re referring to? – Martijn Mar 1 '11 at 11:35
  • 2
    @Cosmin - it's returning the size of the type of the expression F, which in your case is Boolean, because F is a function returning Boolean. – Barry Kelly Mar 1 '11 at 11:35
  • @Martijn: I'm referring to the numbers in the comments. @Cosmin: It looks like they are 4 bytes long, at least the addresses of the parameters inside IsEqual are 4 bytes apart (could be alignment, though). – kiw Mar 1 '11 at 12:25
  • @kiw: ah, ok. Hadn’t seen those, sorry. – Martijn Mar 1 '11 at 13:37

You'll have to associated a name or index with them by some other means. Anonymous methods don't have names and may capture state (so they are recreated per instance); there is no trivial way to make them comparable without breaking encapsulation.

You can get at the object behind the method reference, if there is indeed an object behind it (there's no guarantee of this - the interfaces that method references are implemented in terms of COM semantics, all they really need is a COM vtable):

function Intf2Obj(x: IInterface): TObject;
  TStub = array[0..3] of Byte;
  // ADD [ESP+$04], imm8; [ESP+$04] in stdcall is Self argument, after return address
  add_esp_04_imm8: TStub = ($83, $44, $24, $04);
  // ADD [ESP+$04], imm32
  add_esp_04_imm32: TStub = ($81, $44, $24, $04);

  function Match(L, R: PByte): Boolean;
    i: Integer;
    for i := 0 to SizeOf(TStub) - 1 do
      if L[i] <> R[i] then
    Result := True;

  p: PByte;
  p := PPointer(x)^; // get to vtable
  p := PPointer(p)^; // load QueryInterface stub address from vtable

  if Match(p, @add_esp_04_imm8) then 
    Inc(p, SizeOf(TStub));
    Result := TObject(PByte(Pointer(x)) + PShortint(p)^);
  else if Match(p, @add_esp_04_imm32) then
    Inc(p, SizeOf(TStub));
    Result := TObject(PByte(Pointer(x)) + PLongint(p)^);
    raise Exception.Create('Not a Delphi interface implementation?');

  TAction = reference to procedure;

procedure Go;
  a: TAction;
  i: IInterface;
  o: TObject;
  a := procedure
  i := PUnknown(@a)^;
  o := i as TObject; // Requires Delphi 2010
  o := Intf2Obj(i); // Workaround for non-D2010


This will (currently) print Go$0$ActRec; but if you have a second anonymous method, structurally identical, it will result in a second method, because anonymous method bodies are not compared for structural equality (it would be a high-cost, low-value optimization, as it's unlikely the programmer would do such a thing, and large structural comparisons aren't cheap).

If you were using a later version of Delphi, you could use RTTI on the class of this object and try and compare fields, and implement structural comparison yourself.

  • 1
    @Barry When exactly is the state captured? Suppose I have f1, f2: TProc. I then define f1 which captures state. Later on in the same routine, if I assign f2 := f1, is the state captured again? – David Heffernan Mar 1 '11 at 11:44
  • 2
    I don't have a Blog and I can't put this amount of code in a comment, so here's when and how variables get captured: stackoverflow.com/questions/5154914/… – Cosmin Prund Mar 1 '11 at 13:11
  • 1
    @David In the sample code I wrote no state is captured; but in general, accesses to state (variables and parameters) by anonymous methods are rewritten at compile time (to fields on a heap-allocated object), and this state is allocate at procedure entry time. When it is deallocated depends on when the last method reference goes out of scope (i.e. the reference counting). – Barry Kelly Mar 1 '11 at 14:05
  • 1
    @kiw - the TObject cast thing, I don't recall which version it was released in - I think it may have been Delphi 2010, sorry. But again, if you don't have RTTI to compare fields, it's probably not a big help to you. There is another way to go from the interface to object instance - switch to CPU view and step through the opcodes for an interface or method reference call and you'll see it goes through a stub that jumps to the final destination after altering EAX (in register calling convention) - this alteration to EAX is the delta between the interface reference and the object-typed Self. – Barry Kelly Mar 1 '11 at 14:08
  • 2
    @kiw - no problem; just be aware that you are using some of my hacky code already, albeit professionally tested... ;) – Barry Kelly Mar 1 '11 at 17:43

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