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|
unit iterator_impl;
{$mode objfpc}{$H+}
interface
uses
Classes
,SysUtils
,Regex { to be used with filtered string iterator }
,iterator_intf
,contnrs
;
type
TTBStringsIterator = class(TInterfacedObject, ITBStringIterator, ITBStringAndObjectIterator)
private
FStrings: TStrings;
FCursor: Integer;
{ Interface methods should always be private because
we will only ever access them via an Interface,
never via an Object instance }
{ Interface: ITBStringIterator and ITBStringAndObjectIterator }
function HasNext: Boolean;
function Next: string;
function HasPrevious: Boolean;
function Previous: string;
{ Interface: ITBStringAndObjectIterator }
function HasNextObject: Boolean;
function NextObject: TObject;
function HasPreviousObject: Boolean;
function PreviousObject: TObject;
public
constructor CreateCustom(const ASource: TStrings); virtual;
end;
TTBListIterator = class(TInterfacedObject, ITBIterator)
private
FList: TList;
FCursor: Integer;
{ Interface: ITBIterator }
function HasNext: Boolean;
function Next: TObject;
function HasPrevious: Boolean;
function Previous: TObject;
public
constructor CreateCustom(const ASource: TList); virtual;
end;
TTBCollectionIterator = class(TInterfacedObject, ITBIterator)
private
FCollection: TCollection;
FCursor: Integer;
{ Interface: ITBIterator }
function HasNext: Boolean;
function Next: TObject;
function HasPrevious: Boolean;
function Previous: TObject;
public
constructor CreateCustom(const ASource: TCollection); virtual;
end;
TTBInterfaceListIterator = class(TInterfacedObject, ITBInterfaceIterator)
private
FList: TInterfaceList;
FCursor: integer;
{ Interface: ITBinterfaceIterator }
function HasNext: Boolean;
function Next: IInterface;
function HasPrevious: Boolean;
function Previous: IInterface;
public
constructor CreateCustom(const ASource: TInterfaceList); virtual;
end;
TTBFilteredStringsIterator = class(TTBStringsIterator, ITBFilteredStringIterator)
private
FNextIndex: Integer;
FRegex: TRegexEngine;
{ Interface: ITBFilteredStringIterator }
function GetFilter: string;
procedure SetFilter(const AValue: string);
{ Interface: ITBStringIterator and ITBStringAndObjectIterator }
function HasNext: Boolean;
function Next: string;
function HasPrevious: Boolean;
function Previous: string;
public
constructor CreateCustom(const ASource: TStrings); override;
destructor Destroy; override;
end;
TTBObjectListIterator = class(TInterfacedObject, ITBIterator)
private
FList: TObjectList;
FCursor: Integer;
{ Interface: ITBIterator }
function HasNext: Boolean;
function Next: TObject;
function HasPrevious: Boolean;
function Previous: TObject;
public
constructor CreateCustom(const ASource: TObjectList); virtual;
end;
implementation
{ TTBStringsIterator }
function TTBStringsIterator.HasNext: Boolean;
begin
Result := False;
if Assigned(FStrings) then
if FCursor < FStrings.Count - 1 then
Result := True;
end;
function TTBStringsIterator.Next: string;
begin
Result := '';
if HasNext then
begin
Inc(FCursor, 1);
Result := FStrings.Strings[FCursor];
end;
end;
function TTBStringsIterator.HasPrevious: Boolean;
begin
Result := False;
if Assigned(FStrings) then
if FCursor > 0 then
Result := True;
end;
function TTBStringsIterator.Previous: string;
begin
Result := '';
if HasPrevious then
begin
Dec(FCursor, 1);
Result := FStrings.Strings[FCursor];
end;
end;
function TTBStringsIterator.HasNextObject: Boolean;
begin
Result := False;
if Assigned(FStrings) then
if FCursor < FStrings.Count - 1 then
Result := FStrings.Objects[FCursor] <> nil;
end;
function TTBStringsIterator.NextObject: TObject;
begin
Result := nil;
if HasNextObject then
// Note that Next(...) increments the FCursor
Result := FStrings.Objects[FCursor];
end;
function TTBStringsIterator.HasPreviousObject: Boolean;
begin
Result := False;
if Assigned(FStrings) then
if FCursor > 0 then
Result := FStrings.Objects[FCursor] <> nil;
end;
function TTBStringsIterator.PreviousObject: TObject;
begin
Result := nil;
if HasPreviousObject then
// Note that Previous(...) decrements the FCursor
Result := FStrings.Objects[FCursor];
end;
constructor TTBStringsIterator.CreateCustom(const ASource: TStrings);
begin
inherited Create;
FStrings := ASource;
FCursor := -1;
end;
{ TTBListIterator }
function TTBListIterator.HasNext: Boolean;
begin
Result := False;
if Assigned(FList) then
if FCursor < FList.Count - 1 then
Result := True;
end;
function TTBListIterator.Next: TObject;
begin
Result := nil;
if HasNext then
begin
Inc(FCursor, 1);
result := TObject(FList.Items[FCursor]);
end;
end;
function TTBListIterator.HasPrevious: Boolean;
begin
Result := False;
if Assigned(FList) then
begin
if FCursor > 0 then
Result := True;
end;
end;
function TTBListIterator.Previous: TObject;
begin
Result := nil;
if HasPrevious then
begin
Dec(FCursor, 1);
Result := TObject(FList.Items[FCursor]);
end;
end;
constructor TTBListIterator.CreateCustom(const ASource: TList);
begin
inherited Create;
FList := ASource;
FCursor := -1;
end;
{ TTBCollectionIterator }
function TTBCollectionIterator.HasNext: Boolean;
begin
Result := False;
if Assigned(FCollection) then
if FCursor < FCollection.Count - 1 then
Result := True;
end;
function TTBCollectionIterator.Next: TObject;
begin
Result := nil;
if HasNext then
begin
Inc(FCursor, 1);
result := FCollection.Items[FCursor];
end;
end;
function TTBCollectionIterator.HasPrevious: Boolean;
begin
Result := False;
if Assigned(FCollection) then
if FCursor > 0 then
Result := True;
end;
function TTBCollectionIterator.Previous: TObject;
begin
Result := nil;
if HasPrevious then
begin
Dec(FCursor, 1);
Result := FCollection.Items[FCursor];
end;
end;
constructor TTBCollectionIterator.CreateCustom(const ASource: TCollection);
begin
inherited Create;
FCollection := ASource;
FCursor := -1;
end;
{ TTBFilteredStringsIterator }
function TTBFilteredStringsIterator.GetFilter: string;
begin
Result := FRegex.RegexString;
end;
procedure TTBFilteredStringsIterator.SetFilter(const AValue: string);
const
cFilterErr = 'Error in Filter string at position %d with ErrorCode %d. Filter string <%s>';
var
LErrorCode: TRegexError;
LErrorPos: integer;
begin
if AValue <> FRegex.RegexString then
begin
FRegex.RegexString := AValue;
if not FRegex.Parse(LErrorPos, LErrorCode) then
raise Exception.CreateFmt(cFilterErr, [LErrorPos, Ord(LErrorCode), AValue]);
end;
FNextIndex := -1;
end;
function TTBFilteredStringsIterator.HasNext: Boolean;
var
LIndex: integer;
LMatchPos: integer;
LOffset: integer;
begin
Result := False;
if GetFilter = '' then
begin
Result := inherited HasNext;
if Result then
FNextIndex := FCursor + 1;
end
else
begin
if FCursor < FStrings.Count - 1 then
begin
{ If we haven't already calculated the next matching item }
if FNextIndex = -1 then
begin
LIndex := FCursor + 1;
{ Peek ahead to find the next matching string }
while (LIndex < FStrings.Count) and (FNextIndex = -1) do
begin
{ reset MatchString parameters }
LOffset := 0;
LMatchPos := 0;
if FRegex.MatchString(FStrings.Strings[LIndex], LMatchPos, LOffset) then
FNextIndex := LIndex;
Inc(LIndex);
end;
end;
if FNextIndex <> -1 then
Result := True;
end;
end; { if..else }
end;
function TTBFilteredStringsIterator.Next: string;
begin
Result := '';
if HasNext then
begin
FCursor := FNextIndex;
FNextIndex := -1;
Result := FStrings.Strings[FCursor];
end;
end;
function TTBFilteredStringsIterator.HasPrevious: Boolean;
begin
Result := False; // Filtered String is uni-directional
end;
function TTBFilteredStringsIterator.Previous: string;
begin
Result := '';
raise EUniDirectionalIterator.Create('Filtered String Iterator is uni-directional (forward) only.');
end;
constructor TTBFilteredStringsIterator.CreateCustom(const ASource: TStrings);
begin
inherited CreateCustom(ASource);
FRegex := TRegexEngine.Create('');
FRegex.IgnoreCase := True;
FNextIndex := -1;
end;
destructor TTBFilteredStringsIterator.Destroy;
begin
FRegex.Free;
inherited Destroy;
end;
{ TTBInterfaceListIterator }
function TTBInterfaceListIterator.HasNext: Boolean;
begin
Result := False;
if Assigned(FList) then
if FCursor < FList.Count - 1 then
Result := True;
end;
function TTBInterfaceListIterator.Next: IInterface;
begin
Result := nil;
if HasNext then
begin
Inc(FCursor, 1);
Result := FList.Items[FCursor];
end;
end;
function TTBInterfaceListIterator.HasPrevious: Boolean;
begin
Result := False;
if Assigned(FList) then
if FCursor > 0 then
Result := True;
end;
function TTBInterfaceListIterator.Previous: IInterface;
begin
Result := nil;
if HasPrevious then
begin
Dec(FCursor, 1);
Result := FList.Items[FCursor];
end;
end;
constructor TTBInterfaceListIterator.CreateCustom(const ASource: TInterfaceList);
begin
inherited Create;
FList := ASource;
FCursor := -1;
end;
{ TTBObjectListIterator }
function TTBObjectListIterator.HasNext: Boolean;
begin
Result := False;
if Assigned(FList) then
if FCursor < FList.Count - 1 then
Result := True;
end;
function TTBObjectListIterator.Next: TObject;
begin
result := nil;
if HasNext then
begin
Inc(FCursor);
result := FList.Items[FCursor];
end;
end;
function TTBObjectListIterator.HasPrevious: Boolean;
begin
Result := False;
if Assigned(FList) then
if FCursor > 0 then
Result := True;
end;
function TTBObjectListIterator.Previous: TObject;
begin
result := nil;
if HasPrevious then
begin
Dec(FCursor);
result := FList.Items[FCursor];
end;
end;
constructor TTBObjectListIterator.CreateCustom(const ASource: TObjectList);
begin
inherited Create;
FList := ASource;
FCursor := -1;
end;
end.
|