{$IFDEF INTERFACE} // TGList implemented using templates // - item operations (Add, Insert, ReplaceArray, Get, Set, IndexOf, // Extract, Delete, Exchange) // - item range operations (DeleteItems, InsertItems, ReplaceItems, // Move, Fill) // - other TGList operations (AddList, InsertList, // ReplaceList, GetList, IndexOfList) // - dynamic array operations (AddArray, InsertArray, // ReplaceArray, GetArray, IndexOfArray) // - all items operations (Clear, Reverse, Sort) //TGAbstractList = class //end; // TGList = class TGList = class//(TGAbstractList) public type PItem = ^TGListItem; TSortCompare = function(Item1, Item2: TGListItem): Integer of object; TToStringConverter = function(Item: TGListItem): string; TFromStringConverter = function(Text: string): TGListItem; TItemArray = array of TGListItem; private FItems: array of TGListItem; FCount: TGListIndex; FUpdateCount: Integer; FOnUpdate: TNotifyEvent; function Get(Index: TGListIndex): TGListItem; function GetCapacity: TGListIndex; function GetLast: TGListItem; function GetFirst: TGListItem; procedure SetCapacity(const AValue: TGListIndex); procedure SetCapacityOptimized(const NewCapacity: TGListIndex); procedure SetLast(AValue: TGListItem); procedure SetFirst(AValue: TGListItem); procedure QuickSort(L, R : TGListIndex; Compare: TSortCompare); protected procedure Put(Index: TGListIndex; const AValue: TGListItem); virtual; procedure SetCount(const AValue: TGListIndex); virtual; public function CompareMem(P1, P2: Pointer; Length: cardinal): Boolean; inline; function Add(Item: TGListItem): TGListIndex; procedure AddArray(Values: array of TGListItem); procedure AddList(List: TGList); procedure AddListPart(List: TGList; ItemIndex, ItemCount: TGListIndex); procedure Assign(Source: TGList); virtual; constructor Create; virtual; procedure Clear; virtual; procedure Delete(Index: TGListIndex); virtual; procedure DeleteItems(Index, Count: TGListIndex); function EqualTo(List: TGList): Boolean; procedure Exchange(Index1, Index2: TGListIndex); procedure Explode(Text, Separator: string; Converter: TFromStringConverter; SlicesCount: Integer = -1); function Extract(Item: TGListItem): TGListItem; property First: TGListItem read GetFirst write SetFirst; procedure Fill(Start, Count: TGListIndex; Value: TGListItem); function GetArray(Index, ACount: TGListIndex): TItemArray; procedure GetList(List: TGList; Index, ACount: TGListIndex); procedure GetBuffer(Index: TGListIndex; var Buffer; Count: TGListIndex); function Implode(Separator: string; Converter: TToStringConverter): string; function IndexOf(Item: TGListItem; Start: TGListIndex = 0): TGListIndex; virtual; function IndexOfList(List: TGList; Start: TGListIndex = 0): TGListIndex; function IndexOfArray(Values: array of TGListItem; Start: TGListIndex = 0): TGListIndex; procedure Insert(Index: TGListIndex; Item: TGListItem); procedure InsertList(Index: TGListIndex; List: TGList); procedure InsertArray(Index: TGListIndex; Values: array of TGListItem); procedure InsertCount(Index: TGListIndex; ACount: TGListIndex); procedure Move(CurIndex, NewIndex: TGListIndex); procedure MoveItems(CurIndex, NewIndex, Count: TGListIndex); function Remove(Item: TGListItem): TGListIndex; procedure Reverse; procedure ReplaceArray(Index: TGListIndex; Values: array of TGListItem); procedure ReplaceList(Index: TGListIndex; Source: TGList); procedure ReplaceListPart(Index: TGListIndex; Source: TGList; SourceIndex, SourceCount: TGListIndex); procedure ReplaceBuffer(Index: TGListIndex; var Buffer; Count: TGListIndex); procedure Sort(Compare: TSortCompare); procedure SetArray(Values: array of TGListItem); procedure BeginUpdate; procedure EndUpdate; procedure Update; property Count: TGListIndex read FCount write SetCount; property Capacity: TGListIndex read GetCapacity write SetCapacity; property Items[Index: TGListIndex]: TGListItem read Get write Put; default; property Last: TGListItem read GetLast write SetLast; property OnUpdate: TNotifyEvent read FOnUpdate write FOnUpdate; end; {$UNDEF INTERFACE} {$ENDIF} {$IFDEF IMPLEMENTATION_USES} uses RtlConsts; {$UNDEF IMPLEMENTATION_USES} {$ENDIF} {$IFDEF IMPLEMENTATION} { TGList } constructor TGList.Create; begin FCount := 0; end; procedure TGList.GetBuffer(Index: TGListIndex; var Buffer; Count: TGListIndex); var P: PItem; I: TGListIndex; begin if (Index + Count) > FCount then raise EListError.CreateFmt(SListIndexError, [Index + Count]); P := PItem(@Buffer); I := 0; while I < Count do begin P^ := Items[Index + I]; Inc(P, 1); I := I + 1; end; end; procedure TGList.ReplaceBuffer(Index: TGListIndex; var Buffer; Count: TGListIndex); var P: PItem; I: TGListIndex; begin if (Index + Count) > FCount then raise EListError.CreateFmt(SListIndexError, [Index + Count]); P := PItem(@Buffer); I := 0; while I < Count do begin Items[Index + I] := P^; Inc(P, 1); I := I + 1; end; end; procedure TGList.ReplaceArray(Index: TGListIndex; Values: array of TGListItem); var I: TGListIndex; begin I := 0; while I < Length(Values) do begin Items[Index + I] := Values[I]; I := I + 1; end; Update; end; procedure TGList.ReplaceList(Index: TGListIndex; Source: TGList); var I: TGListIndex; begin I := 0; while I < Source.Count do begin Items[Index + I] := Source[I]; I := I + 1; end; Update; end; procedure TGList.ReplaceListPart(Index: TGListIndex; Source: TGList; SourceIndex, SourceCount: TGListIndex); var I: TGListIndex; begin I := 0; while I < SourceCount do begin Items[Index + I] := Source[SourceIndex + I]; I := I + 1; end; Update; end; function TGList.GetCapacity: TGListIndex; begin Result := Length(FItems); end; procedure TGList.SetCapacity(const AValue: TGListIndex); begin if (AValue < FCount) then raise EListError.CreateFmt(SListCapacityError, [AValue]); SetLength(FItems, AValue); end; procedure TGList.SetCapacityOptimized(const NewCapacity: TGListIndex); var IncSize: TGListIndex; begin if NewCapacity > Capacity then begin IncSize := NewCapacity - Capacity; // Expand if IncSize = 1 then begin IncSize := 4; if Capacity > 3 then IncSize := IncSize + 4; if Capacity > 8 then IncSize := IncSize + 8; if Capacity > 63 then IncSize := IncSize + Capacity shr 2; // Grow by one quarter end; Capacity := Capacity + IncSize; end else if NewCapacity < Capacity then begin // Contract if (Capacity > 256) and (FCount < Capacity shr 2) then begin Capacity := Capacity shr 1; end; end; end; function TGList.Get(Index: TGListIndex): TGListItem; begin if (Index < 0) or (Index >= Count) then raise EListError.CreateFmt(SListIndexError, [Index]); Result := FItems[Index]; end; procedure TGList.Put(Index: TGListIndex; const AValue: TGListItem); begin if (Index < 0) or (Index >= Count) then raise EListError.CreateFmt(SListIndexError, [Index]); FItems[Index] := AValue; end; procedure TGList.SetCount(const AValue: TGListIndex); begin if (AValue < 0) then raise EListError.CreateFmt(SListCountError, [AValue]); if AValue > Capacity then SetCapacityOptimized(AValue); // Before FCount change FCount := AValue; if AValue < Capacity then SetCapacityOptimized(AValue); // After FCount change end; function TGList.GetArray(Index, ACount: TGListIndex): TItemArray; var I: Integer; begin SetLength(Result, ACount); I := 0; while I < Count do begin Result[I] := FItems[Index + I]; I := I + 1; end; end; procedure TGList.GetList(List: TGList; Index, ACount: TGListIndex); begin List.Clear; List.AddListPart(Self, Index, ACount); end; procedure TGList.QuickSort(L, R: TGListIndex; Compare: TSortCompare); var I, J: TGListIndex; P, Q: TGListItem; begin repeat I := L; J := R; P := FItems[(L + R) div 2]; repeat while Compare(P, FItems[I]) > 0 do I := I + 1; while Compare(P, FItems[J]) < 0 do J := J - 1; if I <= J then begin Q := FItems[I]; FItems[I] := FItems[J]; FItems[J] := Q; I := I + 1; J := J - 1; end; until I > J; if L < J then QuickSort(L, J, Compare); L := I; until I >= R; end; procedure TGList.Assign(Source: TGList); var I: TGListIndex; begin Count := Source.Count; I := 0; while I < Count do begin FItems[I] := Source[I]; I := I + 1; end; Update; end; function TGList.Extract(Item: TGListItem): TGListItem; var I: TGListIndex; begin I := IndexOf(Item); if I >= 0 then begin Result := Item; Delete(I); end else raise EListError.CreateFmt(SListIndexError, [0]); end; function TGList.CompareMem(P1, P2: Pointer; Length: cardinal): Boolean; var I: Cardinal; begin Result := True; I := 0; if (P1) <> (P2) then while Result and (I < Length) do begin Result := PByte(P1)^ = PByte(P2)^; Inc(I); Inc(pchar(P1)); Inc(pchar(P2)); end; end; function TGList.IndexOf(Item: TGListItem; Start: TGListIndex): TGListIndex; begin Result := Start; while (Result < FCount) and // not CompareMem(@FItems[Result], @Item, SizeOf(TGListItem)) do not (CompareByte(FItems[Result], Item, SizeOf(TGListItem)) = 0) do Result := Result + 1; if Result = FCount then Result := -1; end; procedure TGList.Insert(Index: TGListIndex; Item: TGListItem); begin if (Index < 0) or (Index > FCount) then raise EListError.CreateFmt(SListIndexError, [Index]); InsertCount(Index, 1); FItems[Index] := Item; Update; end; procedure TGList.InsertList(Index: TGListIndex; List: TGList); begin if (Index < 0) or (Index > FCount) then raise EListError.CreateFmt(SListIndexError, [Index]); InsertCount(Index, List.Count); ReplaceList(Index, List); end; procedure TGList.InsertArray(Index: TGListIndex; Values: array of TGListItem); begin if (Index < 0) or (Index > FCount) then raise EListError.CreateFmt(SListIndexError, [Index]); InsertCount(Index, Length(Values)); ReplaceArray(Index, Values); end; procedure TGList.InsertCount(Index: TGListIndex; ACount: TGListIndex); begin if (Index < 0) or (Index > FCount) then raise EListError.CreateFmt(SListIndexError, [Index]); Count := Count + ACount; if Index < FCount then System.Move(FItems[Index], FItems[Index + ACount], (FCount - ACount - Index) * SizeOf(TGListItem)); Update; end; function TGList.IndexOfList(List: TGList; Start: TGListIndex): TGListIndex; var I: TGListIndex; begin if List.Count > 0 then begin Result := IndexOf(List[0], Start); if Result <> -1 then begin I := 1; while I < List.Count do begin if not CompareMem(Addr(FItems[Result + I]), Addr(List.FItems[I]), SizeOf(TGListItem)) then begin Result := -1; Break; end; I := I + 1; end; end; end else Result := -1; end; function TGList.IndexOfArray(Values: array of TGListItem; Start: TGListIndex): TGListIndex; var I: TGListIndex; begin if Length(Values) > 0 then begin Result := IndexOf(Values[0], Start); if Result <> -1 then begin I := 1; while I < Length(Values) do begin if not CompareMem(Addr(FItems[Result + I]), Addr(Values[I]), SizeOf(TGListItem)) then begin Result := -1; Break; end; I := I + 1; end; end; end else Result := -1; end; function TGList.GetLast: TGListItem; begin if FCount = 0 then raise EListError.CreateFmt(SListIndexError, [0]) else Result := FItems[FCount - 1]; end; procedure TGList.SetLast(AValue: TGListItem); begin if FCount = 0 then raise EListError.CreateFmt(SListIndexError, [0]) else FItems[FCount - 1] := AValue; end; function TGList.GetFirst: TGListItem; begin if FCount = 0 then raise EListError.CreateFmt(SListIndexError, [0]) else Result := FItems[0]; end; procedure TGList.SetFirst(AValue: TGListItem); begin if FCount = 0 then raise EListError.CreateFmt(SListIndexError, [0]) else FItems[0] := AValue; end; procedure TGList.Move(CurIndex, NewIndex: TGListIndex); var Temp: TGListItem; begin if ((CurIndex < 0) or (CurIndex > Count - 1)) then raise EListError.CreateFmt(SListIndexError, [CurIndex]); if ((NewIndex < 0) or (NewIndex > Count -1)) then raise EListError.CreateFmt(SlistIndexError, [NewIndex]); Temp := FItems[CurIndex]; if NewIndex > CurIndex then begin System.Move(FItems[CurIndex + 1], FItems[CurIndex], (NewIndex - CurIndex) * SizeOf(TGListItem)); end else if NewIndex < CurIndex then begin System.Move(FItems[NewIndex], FItems[NewIndex + 1], (CurIndex - NewIndex) * SizeOf(TGListItem)); end; FItems[NewIndex] := Temp; //Delete(CurIndex); //Insert(NewIndex, Temp); Update; end; procedure TGList.MoveItems(CurIndex, NewIndex, Count: TGListIndex); var S: Integer; D: Integer; begin if CurIndex < NewIndex then begin S := CurIndex + Count - 1; D := NewIndex + Count - 1; while S >= CurIndex do begin Move(S, D); S := S - 1; D := D - 1; end; end else if CurIndex > NewIndex then begin S := CurIndex; D := NewIndex; while S < (CurIndex + Count) do begin Move(S, D); S := S + 1; D := D + 1; end; end; Update; end; function TGList.Remove(Item: TGListItem): TGListIndex; begin Result := IndexOf(Item); if Result <> -1 then Delete(Result) else raise Exception.CreateFmt(SItemNotFound, [0]); end; function TGList.EqualTo(List: TGList): Boolean; var I: TGListIndex; begin Result := Count = List.Count; if Result then begin I := 0; while I < Count do begin if not CompareMem(Addr(FItems[I]), Addr(List.FItems[I]), SizeOf(TGListItem)) then begin Result := False; Break; end; I := I + 1; end; end; end; procedure TGList.Reverse; var I: TGListIndex; begin I := 0; while I < (Count div 2) do begin Exchange(I, Count - 1 - I); I := I + 1; end; Update; end; procedure TGList.Sort(Compare: TSortCompare); begin if FCount > 1 then QuickSort(0, FCount - 1, Compare); Update; end; procedure TGList.AddArray(Values: array of TGListItem); var I: TGListIndex; begin I := 0; while I <= High(Values) do begin Add(Values[I]); I := I + 1; end; Update; end; procedure TGList.SetArray(Values: array of TGListItem); var I: TGListIndex; begin Clear; I := 0; while I <= High(Values) do begin Add(Values[I]); I := I + 1; end; end; procedure TGList.BeginUpdate; begin Inc(FUpdateCount); end; procedure TGList.EndUpdate; begin Dec(FUpdateCount); Update; end; procedure TGList.Update; begin if Assigned(FOnUpdate) and (FUpdateCount = 0) then FOnUpdate(Self); end; function TGList.Implode(Separator: string; Converter: TToStringConverter): string; var I: TGListIndex; begin Result := ''; I := 0; while I < Count do begin Result := Result + Converter(FItems[I]); if I < (Count - 1) then Result := Result + Separator; I := I + 1; end; end; procedure TGList.Explode(Text, Separator: string; Converter: TFromStringConverter; SlicesCount: Integer = -1); begin Clear; while (Pos(Separator, Text) > 0) and ((Count < (SlicesCount - 1)) or (SlicesCount = -1)) do begin Add(Converter(Copy(Text, 1, Pos(Separator, Text) - 1))); System.Delete(Text, 1, Pos(Separator, Text) + Length(Separator) - 1); end; Add(Converter(Text)); end; function TGList.Add(Item: TGListItem): TGListIndex; begin Count := Count + 1; Result := FCount - 1; FItems[Result] := Item; Update; end; procedure TGList.AddList(List: TGList); var I: TGListIndex; J: TGListIndex; begin I := Count; J := 0; Count := Count + List.Count; while I < Count do begin Items[I] := List[J]; I := I + 1; J := J + 1; end; Update; end; procedure TGList.AddListPart(List: TGList; ItemIndex, ItemCount: TGListIndex); var I: TGListIndex; J: TGListIndex; begin I := Count; J := ItemIndex; Count := Count + ItemCount; while I < Count do begin Items[I] := List[J]; I := I + 1; J := J + 1; end; Update; end; procedure TGList.Clear; begin Count := 0; Capacity := 0; end; procedure TGList.Delete(Index: TGListIndex); begin if (Index < 0) or (Index >= FCount) then raise EListError.CreateFmt(SListIndexError, [Index]); FCount := FCount - 1; System.Move(FItems[Index + 1], FItems[Index], (FCount - Index) * SizeOf(TGListItem)); SetCapacityOptimized(Capacity - 1); Update; end; procedure TGList.DeleteItems(Index, Count: TGListIndex); var I: TGListIndex; begin I := Index; while I < (Index + Count) do begin Delete(Index); I := I + 1; end; Update; end; procedure TGList.Fill(Start, Count: TGListIndex; Value: TGListItem); var I: TGListIndex; begin I := Start; while I < Count do begin FItems[I] := Value; I := I + 1; end; Update; end; procedure TGList.Exchange(Index1, Index2: TGListIndex); var Temp: TGListItem; begin if ((Index1 >= FCount) or (Index1 < 0)) then raise EListError.CreateFmt(SListIndexError, [Index1]); if ((Index2 >= FCount) or (Index2 < 0)) then raise EListError.CreateFmt(SListIndexError, [Index2]); Temp := FItems[Index1]; FItems[Index1] := FItems[Index2]; FItems[Index2] := Temp; Update; end; {$UNDEF IMPLEMENTATION} {$ENDIF}