In Delphi: How can I find the recursion depth without using a parameter?

When I create recursive methods, I often include a Depth-parameter, especially when I need some sort of bailout mechanism. The code will usually be something like this

``````procedure Recurse(<Params>; aDepth : integer = 0);
begin
begin
//Tidy up, return best result found>
exit;
end;

<stuff>

if <Condition> then
else
begin
//Tidy up, return result of endnode>
end;
end;
``````

And I call it without the Depth-parameter

``````Recurse(<Params>);
``````

Is there another way to easily find the depth?

-
Do you want a pure Delphi solution, or are you willing to drop into assembler? –  dthorpe Sep 24 '10 at 21:29
No, I don't want any assembler. I was hoping for a solution that was simpler then my current approach. –  Svein Bringsli Sep 25 '10 at 6:42

If you had a way to walk the stack and see how many times your function's entry point was in there, I suppose you could do it that way. But then you'd notice that your aDepth parameter was right there too, and you'd realize that aDepth is just easier and much less trouble than snooping the stack. IMO, the simple solution is best here, it's portable and future-proof, unlike whatever stack snooping solution you could invent.
So yes, there are other ways, but your original solution is best, IMO.

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Not what I hoped for, but it's always gratifying to hear that "my original solution was best" :-) –  Svein Bringsli Sep 23 '10 at 13:46
The "stack walking" solution could work, of course, but sounds not ideal to me. The original solution is best, or perhaps using a TObject allocated on the stack to share some initial parameters and a depth private value during the recursion. It could be an elegant solution, but it depends on what you're doing in the recursed function. –  A.Bouchez Sep 23 '10 at 13:49
``````type
TMyRecursion = class
private
nDepth: integer;
public
constructor Create;
procedure Recursion(...)
end;
``````

In constructor you must initialize nDepth, of course.

-

In C++ I am able to do this

``````class recursion_guard
{
public:
recursion_guard() { depth_count++; }
~recursion_guard() { depth_count--; }
static int depth_count;
};
int recursion_guard::depth_count = 0;
void recurse(recursion_guard a = recursion_guard())
{
if(recursion_guard::depth_count > 100)
return;
recurse();
}
``````

but since objects in Object Pascal are always allocated on the heap, I wonder if it is possible to use instead String with default argument and access somehow its reference count

``````const
MyRecursionGuardConstString: string = "whatever";
procedure Recurse(RecursionGuard: string = MyRecursionGuardConstString)
begin
if GetRefCount(MyRecursionGuardConstString) > 100 then //o_o
exit;
end;
Recurse;
end;
``````
-
Such globals are not threadsafe. The poster's parameter solution is. –  Marco van de Voort Sep 23 '10 at 13:42
If you inc'ed your own treadvar refcount on each recursion would that work - as a threadsafe way of avoiding an extra parameter? –  Peter Turner Sep 23 '10 at 16:30
@Peter Turner: I guess, yes, threadvar would do it –  Alsk Sep 24 '10 at 9:37
In modern Delphi versions, you can implement your recursion guard as a record type. Records can now contain methods and fields. Records are value types and live on the stack. –  Jeroen Wiert Pluimers Sep 24 '10 at 9:53

Declare a typed constant inside your procedure. Make sure you set the compile option to allow changes in constants.

``````procedure Recurse;
const
begin

try
begin
//Tidy up, return best result found>
exit;
end;

<stuff>

if <Condition> then
Recurse
else
begin
//Tidy up, return result of endnode>
end;
finally
end;
end;
``````
-
Interesting approach, but I still have to write code to keep track of current depth, which was kind of what I wanted to avoid. I was hoping for some magic "CurrentDepth" function :-) –  Svein Bringsli Sep 23 '10 at 13:44
Rather than globally enabling assinable constants, wrap the procedure with {\$J+}/{\$J-} –  Gerry Coll Sep 23 '10 at 21:50
don't! Those assignable constants (or initialized variables) are a global thing. Using that will limit your method to be only be callable from one site at a time; it will basically kill any multi-threaded or re-entrant use of your method. –  Jeroen Wiert Pluimers Sep 24 '10 at 9:47
@Jeroen: You are right. But I assume that who uses such solution knows what he is doing. Is it also possible to use such solution in threads using threadvars. –  Eduardo Mauro Sep 24 '10 at 11:52