{%MainUnit classes.pp}
{
This file is part of the Free Pascal Run Time Library (rtl)
Copyright (c) 1999-2005 by the Free Pascal development team
See the file COPYING.FPC, included in this distribution,
for details about the copyright.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.
**********************************************************************}
{$if not defined(FPC_TESTGENERICS)}
{****************************************************************************}
{* TFPListEnumerator *}
{****************************************************************************}
constructor TFPListEnumerator.Create(AList: TFPList);
begin
inherited Create;
FList := AList;
FPosition := -1;
end;
function TFPListEnumerator.GetCurrent: Pointer;
begin
Result := FList[FPosition];
end;
function TFPListEnumerator.MoveNext: Boolean;
begin
Inc(FPosition);
Result := FPosition < FList.Count;
end;
{****************************************************************************}
{* TFPList *}
{****************************************************************************}
Const
// Ratio of Pointer and Word Size.
WordRatio = SizeOf(Pointer) Div SizeOf(Word);
procedure TFPList.RaiseIndexError(Index : Integer);
begin
// We should be able to remove this, but unfortunately it is marked protected.
Error(SListIndexError, Index);
end;
Procedure TFPList.CheckIndex(AIndex : Integer);
begin
If (AIndex < 0) or (AIndex >= FCount) then
Error(SListIndexError, AIndex); // Don't use RaiseIndexError, exception address will be better if we use error.
end;
function TFPList.Get(Index: Integer): Pointer;
begin
CheckIndex(Index);
Result:=FList^[Index];
end;
procedure TFPList.Put(Index: Integer; Item: Pointer);
begin
CheckIndex(Index);
Flist^[Index] := Item;
end;
function TFPList.Extract(Item: Pointer): Pointer;
var
i : Integer;
begin
i := IndexOf(item);
if i >= 0 then
begin
Result := item;
Delete(i);
end
else
result := nil;
end;
procedure TFPList.SetCapacity(NewCapacity: Integer);
begin
If (NewCapacity < FCount) or (NewCapacity > MaxListSize) then
Error (SListCapacityError, NewCapacity);
if NewCapacity = FCapacity then
exit;
ReallocMem(FList, SizeOf(Pointer)*NewCapacity);
FCapacity := NewCapacity;
end;
procedure TFPList.SetCount(NewCount: Integer);
begin
if (NewCount < 0) or (NewCount > MaxListSize)then
Error(SListCountError, NewCount);
If NewCount > FCount then
begin
If NewCount > FCapacity then
SetCapacity(NewCount);
If FCount < NewCount then
FillWord(Flist^[FCount], (NewCount-FCount) * WordRatio, 0);
end;
FCount := Newcount;
end;
destructor TFPList.Destroy;
begin
Self.Clear;
inherited Destroy;
end;
Procedure TFPList.AddList(AList : TFPList);
Var
I : Integer;
begin
If (Capacity<Count+AList.Count) then
Capacity:=Count+AList.Count;
For I:=0 to AList.Count-1 do
Add(AList[i]);
end;
function TFPList.Add(Item: Pointer): Integer;
begin
if FCount = FCapacity then
Self.Expand;
FList^[FCount] := Item;
Result := FCount;
FCount := FCount + 1;
end;
procedure TFPList.Clear;
begin
if Assigned(FList) then
begin
SetCount(0);
SetCapacity(0);
// FList := nil; // Already set by SetCapacity
end;
end;
procedure TFPList.Delete(Index: Integer);
begin
CheckIndex(Index);
FCount := FCount-1;
System.Move (FList^[Index+1], FList^[Index], (FCount - Index) * SizeOf(Pointer));
// Shrink the list if appropriate:
// If capacity>256 and the list is less than a quarter filled, shrink to 1/2 the size.
// Shr is used because it is faster than div.
if (FCapacity > 256) and (FCount < FCapacity shr 2) then
begin
FCapacity := FCapacity shr 1;
ReallocMem(FList, SizeOf(Pointer) * FCapacity);
end;
end;
class procedure TFPList.Error(const Msg: string; Data: PtrInt);
begin
Raise EListError.CreateFmt(Msg,[Data]) at get_caller_addr(get_frame), get_caller_frame(get_frame);
end;
procedure TFPList.Exchange(Index1, Index2: Integer);
var
Temp : Pointer;
begin
CheckIndex(Index1);
CheckIndex(Index2);
Temp := FList^[Index1];
FList^[Index1] := FList^[Index2];
FList^[Index2] := Temp;
end;
function TFPList.Expand: TFPList;
var
IncSize : Longint;
begin
if FCount < FCapacity then exit(self);
{
For really big lists, (128Mb elements), increase with fixed amount: 16Mb elements (=1/8th of 128Mb).
For big lists (8mb elements), increase with 1/8th of the size
For moderate lists (128 or more, increase with 1/4th the size
For smaller sizes, increase with 16 or 4
}
if FCapacity > 128*1024*1024 then IncSize := 16*1024*1024
else if FCapacity > 8*1024*1024 then IncSize := FCapacity shr 3
else if FCapacity > 128 then IncSize := FCapacity shr 2
else if FCapacity > 8 then IncSize := 16
else IncSize := 4;
SetCapacity(FCapacity + IncSize);
Result := Self;
end;
function TFPList.First: Pointer;
begin
If FCount = 0 then
Result := Nil
else
Result := Items[0];
end;
function TFPList.GetEnumerator: TFPListEnumerator;
begin
Result := TFPListEnumerator.Create(Self);
end;
function TFPList.IndexOf(Item: Pointer): Integer;
begin
Result :=
{$if sizeof(pointer) = sizeof(word)}
IndexWord
{$elseif sizeof(pointer) = sizeof(dword)}
IndexDWord
{$elseif sizeof(pointer) = sizeof(qword)}
IndexQWord
{$else}
{$error unknown pointer size}
{$endif}
(FList^, FCount, PtrUint(Item));
end;
function TFPList.IndexOfItem(Item: Pointer; Direction: TDirection): Integer;
begin
if Direction=fromBeginning then
Result:=IndexOf(Item)
else
begin
Result:=Count-1;
while (Result >=0) and (Flist^[Result]<>Item) do
Result:=Result - 1;
end;
end;
procedure TFPList.Insert(Index: Integer; Item: Pointer);
begin
if (Index < 0) or (Index > FCount )then
Error(SlistIndexError, Index);
iF FCount = FCapacity then Self.Expand;
if Index<FCount then
System.Move(Flist^[Index], Flist^[Index+1], (FCount - Index) * SizeOf(Pointer));
FList^[Index] := Item;
FCount := FCount + 1;
end;
function TFPList.Last: Pointer;
begin
{ Wouldn't it be better to return nil if the count is zero ?}
If FCount = 0 then
Result := nil
else
Result := Items[FCount - 1];
end;
procedure TFPList.Move(CurIndex, NewIndex: Integer);
var
Temp : Pointer;
begin
CheckIndex(CurIndex);
CheckIndex(NewIndex);
if (CurIndex=NewIndex) then
exit;
Temp := FList^[CurIndex];
if NewIndex > CurIndex then
System.Move(FList^[CurIndex+1], FList^[CurIndex], (NewIndex - CurIndex) * SizeOf(Pointer))
else
System.Move(FList^[NewIndex], FList^[NewIndex+1], (CurIndex - NewIndex) * SizeOf(Pointer));
FList^[NewIndex] := Temp;
end;
function TFPList.Remove(Item: Pointer): Integer;
begin
Result := IndexOf(Item);
If Result <> -1 then
Self.Delete(Result);
end;
procedure TFPList.Pack;
var
NewCount,
i : integer;
pdest,
psrc : PPointer;
begin
NewCount:=0;
psrc:=@FList^[0];
pdest:=psrc;
For I:=0 To FCount-1 Do
begin
if assigned(psrc^) then
begin
pdest^:=psrc^;
inc(pdest);
inc(NewCount);
end;
inc(psrc);
end;
FCount:=NewCount;
end;
procedure TFPList.Sort(Compare: TListSortCompare);
begin
Sort(Compare, {$IFDEF FPC_DOTTEDUNITS}System.{$ENDIF}SortBase.DefaultSortingAlgorithm);
end;
procedure TFPList.Sort(Compare: TListSortCompare; SortingAlgorithm: PSortingAlgorithm);
begin
SortingAlgorithm^.PtrListSorter_NoContextComparer(PPointer(FList), FCount, Compare);
end;
procedure TFPList.Sort(Compare: TListSortComparer_Context; Context: Pointer);
begin
Sort(Compare, Context, {$IFDEF FPC_DOTTEDUNITS}System.{$ENDIF}SortBase.DefaultSortingAlgorithm);
end;
procedure TFPList.Sort(Compare: TListSortComparer_Context; Context: Pointer; SortingAlgorithm: PSortingAlgorithm);
begin
SortingAlgorithm^.PtrListSorter_ContextComparer(PPointer(FList), FCount, Compare, Context);
end;
procedure TFPList.ForEachCall(proc2call:TListCallback;arg:pointer);
var
i : integer;
p : pointer;
begin
For I:=0 To Count-1 Do
begin
p:=FList^[i];
if assigned(p) then
proc2call(p,arg);
end;
end;
procedure TFPList.ForEachCall(proc2call:TListStaticCallback;arg:pointer);
var
i : integer;
p : pointer;
begin
For I:=0 To Count-1 Do
begin
p:=FList^[i];
if assigned(p) then
proc2call(p,arg);
end;
end;
procedure TFPList.CopyMove (aList : TFPList);
var r : integer;
begin
Clear;
for r := 0 to aList.count-1 do
Add (aList[r]);
end;
procedure TFPList.MergeMove (aList : TFPList);
var r : integer;
begin
For r := 0 to aList.count-1 do
if self.indexof(aList[r]) < 0 then
self.Add (aList[r]);
end;
procedure TFPList.DoCopy(ListA, ListB : TFPList);
begin
if assigned (ListB) then
CopyMove (ListB)
else
CopyMove (ListA);
end;
procedure TFPList.DoDestUnique(ListA, ListB : TFPList);
procedure MoveElements (src, dest : TFPList);
var r : integer;
begin
self.clear;
for r := 0 to src.count-1 do
if dest.indexof(src[r]) < 0 then
self.Add (src[r]);
end;
var dest : TFPList;
begin
if assigned (ListB) then
MoveElements (ListB, ListA)
else
try
dest := TFPList.Create;
dest.CopyMove (self);
MoveElements (ListA, dest)
finally
dest.Free;
end;
end;
procedure TFPList.DoAnd(ListA, ListB : TFPList);
var r : integer;
begin
if assigned (ListB) then
begin
self.clear;
for r := 0 to ListA.count-1 do
if ListB.indexOf (ListA[r]) >= 0 then
self.Add (ListA[r]);
end
else
begin
for r := self.Count-1 downto 0 do
if ListA.indexof (Self[r]) < 0 then
self.delete (r);
end;
end;
procedure TFPList.DoSrcUnique(ListA, ListB : TFPList);
var r : integer;
begin
if assigned (ListB) then
begin
self.Clear;
for r := 0 to ListA.Count-1 do
if ListB.indexof (ListA[r]) < 0 then
self.Add (ListA[r]);
end
else
begin
for r := self.count-1 downto 0 do
if ListA.indexof (self[r]) >= 0 then
self.delete (r);
end;
end;
procedure TFPList.DoOr(ListA, ListB : TFPList);
begin
if assigned (ListB) then
begin
CopyMove (ListA);
MergeMove (ListB);
end
else
MergeMove (ListA);
end;
procedure TFPList.DoXOr(ListA, ListB : TFPList);
var r : integer;
l : TFPList;
begin
if assigned (ListB) then
begin
self.Clear;
for r := 0 to ListA.count-1 do
if ListB.indexof (ListA[r]) < 0 then
self.Add (ListA[r]);
for r := 0 to ListB.count-1 do
if ListA.indexof (ListB[r]) < 0 then
self.Add (ListB[r]);
end
else
try
l := TFPList.Create;
l.CopyMove (Self);
for r := self.count-1 downto 0 do
if listA.indexof (self[r]) >= 0 then
self.delete (r);
for r := 0 to ListA.count-1 do
if l.indexof (ListA[r]) < 0 then
self.add (ListA[r]);
finally
l.Free;
end;
end;
procedure TFPList.Assign (ListA: TFPList; AOperator: TListAssignOp=laCopy; ListB: TFPList=nil);
begin
case AOperator of
laCopy : DoCopy (ListA, ListB); // replace dest with src
laSrcUnique : DoSrcUnique (ListA, ListB); // replace dest with src that are not in dest
laAnd : DoAnd (ListA, ListB); // remove from dest that are not in src
laDestUnique : DoDestUnique (ListA, ListB); // remove from dest that are in src
laOr : DoOr (ListA, ListB); // add to dest from src and not in dest
laXOr : DoXOr (ListA, ListB); // add to dest from src and not in dest, remove from dest that are in src
end;
end;
{$else}
{ generics based implementation of TFPList follows }
procedure TFPList.Assign(Source: TFPList);
begin
inherited Assign(Source);
end;
type
TFPPtrListSortCompare = function(const Item1, Item2: Pointer): Integer;
procedure TFPList.Sort(Compare: TListSortCompare);
begin
inherited Sort(TFPPtrListSortCompare(Compare));
end;
procedure TFPList.Sort(Compare: TListSortCompare; SortingAlgorithm: PSortingAlgorithm);
begin
inherited Sort(TFPPtrListSortCompare(Compare), SortingAlgorithm);
end;
procedure TFPList.ForEachCall(Proc2call: TListCallback; Arg: Pointer);
var
I: integer;
begin
for I:=0 to Count-1 do
proc2call(InternalItems[I],arg);
end;
procedure TFPList.ForEachCall(Proc2call: TListStaticCallback; Arg: Pointer);
var
I: integer;
begin
for I:=0 to Count-1 do
Proc2call(InternalItems[I], Arg);
end;
{$endif}
{****************************************************************************}
{* TListEnumerator *}
{****************************************************************************}
constructor TListEnumerator.Create(AList: TList);
begin
inherited Create(AList.FList);
end;
{****************************************************************************}
{* TList *}
{****************************************************************************}
{ TList = class(TObject)
private
FList: TFPList;
}
function TList.Get(Index: Integer): Pointer;
begin
Result := FList.Get(Index);
end;
procedure TList.Grow;
begin
// Only for compatibility with Delphi. Not needed.
end;
procedure TList.Put(Index: Integer; Item: Pointer);
var p : pointer;
begin
p := get(Index);
FList.Put(Index, Item);
if assigned (p) then
Notify (p, lnDeleted);
if assigned (Item) then
Notify (Item, lnAdded);
end;
function TList.Extract(item: Pointer): Pointer;
var c : integer;
begin
c := FList.Count;
Result := FList.Extract(item);
if c <> FList.Count then
Notify (Result, lnExtracted);
end;
procedure TList.Notify(Ptr: Pointer; Action: TListNotification);
begin
if Assigned(FObservers) then
Case ACtion of
lnAdded : FPONotifyObservers(Self,ooAddItem,Ptr);
lnExtracted : FPONotifyObservers(Self,ooDeleteItem,Ptr);
lnDeleted : FPONotifyObservers(Self,ooDeleteItem,Ptr);
end;
end;
function TList.GetCapacity: integer;
begin
Result := FList.Capacity;
end;
procedure TList.SetCapacity(NewCapacity: Integer);
begin
FList.SetCapacity(NewCapacity);
end;
function TList.GetCount: Integer;
begin
Result := FList.Count;
end;
procedure TList.SetCount(NewCount: Integer);
begin
if NewCount < FList.Count then
while FList.Count > NewCount do
Delete(FList.Count - 1)
else
FList.SetCount(NewCount);
end;
constructor TList.Create;
begin
inherited Create;
FList := TFPList.Create;
end;
destructor TList.Destroy;
begin
if Assigned(Flist) then
Clear;
If Assigned(FObservers) then
begin
FPONotifyObservers(Self,ooFree,Nil);
FreeAndNil(FObservers);
end;
FreeAndNil(FList);
inherited Destroy;
end;
procedure TList.FPOAttachObserver(AObserver: TObject);
Var
I : IFPObserver;
begin
If Not AObserver.GetInterface(SGUIDObserver,I) then
Raise EObserver.CreateFmt(SErrNotObserver,[AObserver.ClassName]);
If not Assigned(FObservers) then
FObservers:=TFPList.Create;
FObservers.Add(I);
end;
procedure TList.FPODetachObserver(AObserver: TObject);
Var
I : IFPObserver;
begin
If Not AObserver.GetInterface(SGUIDObserver,I) then
Raise EObserver.CreateFmt(SErrNotObserver,[AObserver.ClassName]);
If Assigned(FObservers) then
begin
FObservers.Remove(I);
If (FObservers.Count=0) then
FreeAndNil(FObservers);
end;
end;
procedure TList.FPONotifyObservers(ASender: TObject;
AOperation: TFPObservedOperation; Data : Pointer);
Var
I : Integer;
Obs : IFPObserver;
begin
If Assigned(FObservers) then
For I:=FObservers.Count-1 downto 0 do
begin
Obs:=IFPObserver(FObservers[i]);
Obs.FPOObservedChanged(ASender,AOperation,Data);
end;
end;
function TList.Add(Item: Pointer): Integer;
begin
Result := FList.Add(Item);
if Item <> nil then
Notify(Item, lnAdded);
end;
Procedure TList.AddList(AList : TList);
var
I: Integer;
begin
{ this only does FList.AddList(AList.FList), avoiding notifications }
FList.AddList(AList.FList);
{ make lnAdded notifications }
for I := 0 to AList.Count - 1 do
if AList[I] <> nil then
Notify(AList[I], lnAdded);
end;
procedure TList.Clear;
begin
While (FList.Count>0) do
Delete(Count-1);
end;
procedure TList.Delete(Index: Integer);
var P : pointer;
begin
P:=FList.Get(Index);
FList.Delete(Index);
if assigned(p) then
Notify(p, lnDeleted);
end;
class procedure TList.Error(const Msg: string; Data: PtrInt);
begin
Raise EListError.CreateFmt(Msg,[Data]) at get_caller_addr(get_frame), get_caller_frame(get_frame);
end;
procedure TList.Exchange(Index1, Index2: Integer);
begin
FList.Exchange(Index1, Index2);
FPONotifyObservers(Self,ooChange,Nil);
end;
function TList.Expand: TList;
begin
FList.Expand;
Result:=Self;
end;
function TList.First: Pointer;
begin
Result := FList.First;
end;
function TList.GetEnumerator: TListEnumerator;
begin
Result := TListEnumerator.Create(Self);
end;
function TList.IndexOf(Item: Pointer): Integer;
begin
Result := FList.IndexOf(Item);
end;
procedure TList.Insert(Index: Integer; Item: Pointer);
begin
FList.Insert(Index, Item);
if Item <> nil then
Notify(Item,lnAdded);
end;
function TList.Last: Pointer;
begin
Result := FList.Last;
end;
procedure TList.Move(CurIndex, NewIndex: Integer);
begin
FList.Move(CurIndex, NewIndex);
end;
function TList.Remove(Item: Pointer): Integer;
begin
Result := IndexOf(Item);
if Result <> -1 then
Self.Delete(Result);
end;
procedure TList.Pack;
begin
FList.Pack;
end;
procedure TList.Sort(Compare: TListSortCompare);
begin
FList.Sort(Compare);
end;
procedure TList.Sort(Compare: TListSortCompare; SortingAlgorithm: PSortingAlgorithm);
begin
FList.Sort(Compare, SortingAlgorithm);
end;
procedure TList.Sort(Compare: TListSortComparer_Context; Context: Pointer);
begin
FList.Sort(Compare, Context);
end;
procedure TList.Sort(Compare: TListSortComparer_Context; Context: Pointer; SortingAlgorithm: PSortingAlgorithm);
begin
FList.Sort(Compare, Context, SortingAlgorithm);
end;
procedure TList.CopyMove (aList : TList);
var r : integer;
begin
Clear;
for r := 0 to aList.count-1 do
Add (aList[r]);
end;
procedure TList.MergeMove (aList : TList);
var r : integer;
begin
For r := 0 to aList.count-1 do
if self.indexof(aList[r]) < 0 then
self.Add (aList[r]);
end;
procedure TList.DoCopy(ListA, ListB : TList);
begin
if assigned (ListB) then
CopyMove (ListB)
else
CopyMove (ListA);
end;
procedure TList.DoDestUnique(ListA, ListB : TList);
procedure MoveElements (src, dest : TList);
var r : integer;
begin
self.clear;
for r := 0 to src.count-1 do
if dest.indexof(src[r]) < 0 then
self.Add (src[r]);
end;
var dest : TList;
begin
if assigned (ListB) then
MoveElements (ListB, ListA)
else
try
dest := TList.Create;
dest.CopyMove (self);
MoveElements (ListA, dest)
finally
dest.Free;
end;
end;
procedure TList.DoAnd(ListA, ListB : TList);
var r : integer;
begin
if assigned (ListB) then
begin
self.clear;
for r := 0 to ListA.count-1 do
if ListB.indexOf (ListA[r]) >= 0 then
self.Add (ListA[r]);
end
else
begin
for r := self.Count-1 downto 0 do
if ListA.indexof (Self[r]) < 0 then
self.delete (r);
end;
end;
procedure TList.DoSrcUnique(ListA, ListB : TList);
var r : integer;
begin
if assigned (ListB) then
begin
self.Clear;
for r := 0 to ListA.Count-1 do
if ListB.indexof (ListA[r]) < 0 then
self.Add (ListA[r]);
end
else
begin
for r := self.count-1 downto 0 do
if ListA.indexof (self[r]) >= 0 then
self.delete (r);
end;
end;
procedure TList.DoOr(ListA, ListB : TList);
begin
if assigned (ListB) then
begin
CopyMove (ListA);
MergeMove (ListB);
end
else
MergeMove (ListA);
end;
procedure TList.DoXOr(ListA, ListB : TList);
var r : integer;
l : TList;
begin
if assigned (ListB) then
begin
self.Clear;
for r := 0 to ListA.count-1 do
if ListB.indexof (ListA[r]) < 0 then
self.Add (ListA[r]);
for r := 0 to ListB.count-1 do
if ListA.indexof (ListB[r]) < 0 then
self.Add (ListB[r]);
end
else
try
l := TList.Create;
l.CopyMove (Self);
for r := self.count-1 downto 0 do
if listA.indexof (self[r]) >= 0 then
self.delete (r);
for r := 0 to ListA.count-1 do
if l.indexof (ListA[r]) < 0 then
self.add (ListA[r]);
finally
l.Free;
end;
end;
procedure TList.Assign (ListA: TList; AOperator: TListAssignOp=laCopy; ListB: TList=nil);
begin
case AOperator of
laCopy : DoCopy (ListA, ListB); // replace dest with src
laSrcUnique : DoSrcUnique (ListA, ListB); // replace dest with src that are not in dest
laAnd : DoAnd (ListA, ListB); // remove from dest that are not in src
laDestUnique : DoDestUnique (ListA, ListB); // remove from dest that are in src
laOr : DoOr (ListA, ListB); // add to dest from src and not in dest
laXOr : DoXOr (ListA, ListB); // add to dest from src and not in dest, remove from dest that are in src
end;
end;
function TList.GetList: PPointerList;
begin
Result := PPointerList(FList.List);
end;
{****************************************************************************}
{* TThreadList *}
{****************************************************************************}
constructor TThreadList.Create;
begin
inherited Create;
FDuplicates:=dupIgnore;
{$ifdef FPC_HAS_FEATURE_THREADING}
InitCriticalSection(FLock);
{$endif}
FList:=TList.Create;
end;
destructor TThreadList.Destroy;
begin
LockList;
try
FList.Free;
inherited Destroy;
finally
UnlockList;
{$ifdef FPC_HAS_FEATURE_THREADING}
DoneCriticalSection(FLock);
{$endif}
end;
end;
procedure TThreadList.Add(Item: Pointer);
begin
LockList;
try
if (Duplicates=dupAccept) or
// make sure it's not already in the list
(FList.IndexOf(Item)=-1) then
FList.Add(Item)
else if (Duplicates=dupError) then
FList.Error(SDuplicateItem,PtrUInt(Item));
finally
UnlockList;
end;
end;
procedure TThreadList.Clear;
begin
Locklist;
try
FList.Clear;
finally
UnLockList;
end;
end;
function TThreadList.LockList: TList;
begin
Result:=FList;
{$ifdef FPC_HAS_FEATURE_THREADING}
System.EnterCriticalSection(FLock);
{$endif}
end;
procedure TThreadList.Remove(Item: Pointer);
begin
LockList;
try
FList.Remove(Item);
finally
UnlockList;
end;
end;
procedure TThreadList.UnlockList;
begin
{$ifdef FPC_HAS_FEATURE_THREADING}
System.LeaveCriticalSection(FLock);
{$endif}
end;