Consider this typical code for method tracing (simplified for illustration):

  IMethodTracer = interface

  TMethodTracer = class(TInterfacedObject, IMethodTracer)
    FName: String;
    FResultAddr: Pointer;
    FResultType: PTypeInfo;
    constructor Create(
      const AName: String;
      const AResultAddr: Pointer = nil;
      const AResultType: PTypeInfo = nil);
    destructor Destroy; override;

constructor TMethodTracer.Create(
  const AName: String;
  const AResultAddr: Pointer;
  const AResultType: PTypeInfo);
  inherited Create();
  FName := AName;
  FResultAddr := AResultAddr;
  FResultType := AResultType;
  Writeln('Entering ' + FName);

destructor TMethodTracer.Destroy;
  lSuffix: String;
  lResVal: TValue;
  lSuffix := '';
  if FResultAddr <> nil then
      //there's probably a more straight-forward to doing this, without involving TValue:
      TValue.Make(FResultAddr, FResultType, lResVal);
      lSuffix := ' - Result = ' + lResVal.AsString;
  Writeln('Leaving ' + FName + lSuffix);

  inherited Destroy;

function TraceMethod(
  const AName: String;
  const AResultAddr: Pointer;
  const AResultType: PTypeInfo): IMethodTracer;
  Result := TMethodTracer.Create(AName, AResultAddr, AResultType);


function F1: String;
  TraceMethod('F1', @Result, TypeInfo(String));
  Writeln('Doing some stuff...');
  Result := 'Booyah!';


This is working as intended. The output is:

Entering F1
Doing some stuff...
Leaving F1 - Result = Booyah!

I am now looking for a way to minimize the number of required parameters for the call to TraceMethod(), ideally allowing me to skip the Result-related arguments altogether. I have no experience with assembler or stack layout myself but If I am not mistaken, judging by the "magic" I have seen other people do, at least the memory address of the implied magic Result-variable should be obtainable somehow, shouldn't it? And possibly one can work from there to get at its type info, too?

Of course, if it were possible to even determine the name of the "surrounding" function itself that would eliminate the need for passing arguments to TraceMethod entirely...

I am using Delphi XE2, so all recently introduced language/framework features can be used.

And before anyone mentions it: My actual code already uses CodeSite.EnterMethod/ExitMethod instead of Writeln-calls. I am also aware that this simplified example cannot handle complex types and performs no error handling whatsoever.

  • 1
    You mentioned wanting to know how to get current method's name. – Rob Kennedy May 30 '12 at 16:02
  • Thanks. That was a really great pointer! – Oliver Giesen May 30 '12 at 16:15
  • 1
    I'm not shure, but may be in this case TVirtualMethodInterceptor class wich was introduced in XE2 will be usefull (docwiki.embarcadero.com/Libraries/XE2/en/…) – teran May 30 '12 at 16:27
  • @teran TVirtualMethodInterceptor does nothing here because there is no virtual method :) – Stefan Glienke May 31 '12 at 6:38
  • 1
    True, however a solution that only works in special cases does not help very much in that case. Anyway I did what teran was suggesting in DSharp aspects. You have a logging aspect there that you can apply to all virtual methods. – Stefan Glienke May 31 '12 at 17:03

Your best bet is truly to just pass in @Result. If you don't, then there's no guarantee that Result even has an address. Functions returning simple types like Integer and Boolean put the result in the EAX register. If there's no reason for the result to have an address, then the compiler won't allocate any memory for it. Using the expression @Result forces the compiler to give it an address.

Merely knowing the address won't get you the return type, though. There might be a way to discover it with RTTI. It would involve three steps:

  1. Extract the class name from the method name. Then you can get the RTTI for that type. This would require the method name to include an unambiguous name for the class (including unit name).

  2. Using the list of methods from that type, find the RTTI for the method. This will be complicated by the fact that the name doesn't necessarily uniquely identify a method. Overloads will all show the same name. (Rruz showed how to deal with RTTI of overloaded methods in the context of the Invoke method.) Also, the method name you get from the debug info won't necessarily match the RTTI name.

    Instead of trying to match the name, you could instead loop over all the class's methods, searching for the one whose CodeAddress property matches the address of the caller. Determining how to get the address of the start of the caller (instead of the return address) is proving more difficult to find than I expected, though.

  3. Get the method's return type and use the Handle property to finally get the PTypeInfo value you want.

  • Unfortunatly he is logging a routine where no RTTI is available for. – Stefan Glienke May 31 '12 at 6:46
  • @StefanGlienke : I used a standalone routine mainly to keep the example short. In the actual code it will be "proper" instance methods most of the time. – Oliver Giesen May 31 '12 at 7:41

Some of this feature is already included in our TSynLog class, which works from Delphi 5 up to XE2.

It is full Open Source, and working with Delphi XE2, so you have all the needed source code at hand. And it features exception interception and stack trace.

It allows coding trace like this:

procedure TestPeopleProc;
var People: TSQLRecordPeople;
    Log: ISynLog;
  Log := TSQLLog.Enter;
  People := TSQLRecordPeople.Create;
    People.ID := 16;
    People.FirstName := 'Louis';
    People.LastName := 'Croivébaton';
    People.YearOfBirth := 1754;
    People.YearOfDeath := 1793;

It will be logged as such:

20120520 13172261  +    000E9F67 SynSelfTests.TestPeopleProc (784)
20120520 13172261 info      {"TSQLRecordPeople(00AB92E0)":{"ID":16,"FirstName":"Louis","LastName":"Croivébaton","Data":"","YearOfBirth":1754,"YearOfDeath":1793}}
20120520 13172261   -    000EA005 SynSelfTests.TestPeopleProc (794) 00.002.229

That is:

  • You have the line numbers and the method name;
  • You have the exact time consummed within the method (00.002.229);
  • It is very easy to display any result (here, the class is even serialized as JSON directly, and you can do the same with any kind of data, even records);
  • Methods can be nested, and there is also a profiling tool available in our log viewer - that is, you can retrieve in which methods the most time is spent, on the customer side, from the log file;
  • You can add a stack trace, or whatever information you want, very easily;
  • Our code is very optimized for speed: e.g. it uses an interface for the "auto-leave" function, just like you, but it won't make any memory allocation, since it uses a "fake reference count" trick;
  • Of course, defining a Log variable on the stack is optional: if you need only to trace the Enter/Leave of the method, just writing TSQLLog.Enter is enough. The Log local variable is used to easily nest additional information within the method (Log.Log(sllInfo,People)).

Note that the debugging information (i.e. the method name and line numbers) are retrieved from a proprietary very optimized binary conversion of the .map file generated at compile time. It will be much smaller than the .map itself (e.g. 900 KB .map -> 70 KB .mab which can be easily embedded within the exe), therefore smaller than the format used by JCL or MadExcept, and also smaller than the information embedded at compile time by Delphi.

I do not think that having the "result" hard-coded within the "Enter" method is worth it. It will add a lot of coding (e.g. the conversion to TValue is time consuming), for a negligible benefit - most of the time, you'll need to know much more than the result content.

  • Thanks! Looking at that code gave me quite a few new ideas! However, it does not address the core issue of this question, i.e. how to obtain information about the Result... – Oliver Giesen May 31 '12 at 11:45

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