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{-------------------------------------------------------------------------------
The contents of this file are subject to the Mozilla Public License
Version 1.1 (the "License"); you may not use this file except in compliance
with the License. You may obtain a copy of the License at
http://www.mozilla.org/MPL/
Software distributed under the License is distributed on an "AS IS" basis,
WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License for
the specific language governing rights and limitations under the License.
Alternatively, the contents of this file may be used under the terms of the
GNU General Public License Version 2 or later (the "GPL"), in which case
the provisions of the GPL are applicable instead of those above.
If you wish to allow use of your version of this file only under the terms
of the GPL and not to allow others to use your version of this file
under the MPL, indicate your decision by deleting the provisions above and
replace them with the notice and other provisions required by the GPL.
If you do not delete the provisions above, a recipient may use your version
of this file under either the MPL or the GPL.
-------------------------------------------------------------------------------}
unit LazSynEditText;
{$I synedit.inc}
{$IFOPT C+}
{$DEFINE AssertSynMemIndex}
{$DEFINE SynAssert}
{$ENDIF}
{$IFDEF SynAssert}
{$DEFINE AssertSynMemIndex}
{$ENDIF}
interface
uses
Classes, SysUtils, Graphics, LCLProc, SynEditTypes, SynEditMiscProcs,
SynEditHighlighter, SynEditKeyCmds, SynEditTextBase;
type
TSynEditStrings = class;
TStringListLinesModifiedEvent = procedure(Sender: TSynEditStrings;
aIndex, aNewCount, aOldCount: Integer) of object;
TStringListLineCountEvent = procedure(Sender: TSynEditStrings;
aIndex, aCount: Integer) of object;
TStringListLineEditEvent = procedure(Sender: TSynEditStrings;
aLinePos, aBytePos, aCount, aLineBrkCnt: Integer;
aText: String) of object;
TSynEditNotifyReason = ( // TStringListLineCountEvent
senrLineCount, // Lines Inserted or Deleted (if not empty, they will trigger senrLineChange too)
senrLineChange, // Lines modified (also triggered by senrEditAction)
senrLinesModified, // Send once in "EndUpdate". Modified, inserted or deleted
senrHighlightChanged, // used by Highlighter (invalidate and fold checks needed)
// TStringListLineEditEvent
senrEditAction, // EditInsert, EditDelete, EditLineBreak, ...
// TNotifyEvent
senrCleared,
senrUndoRedoAdded,
senrModifiedChanged, // The modified flag was changed
// Paintlocks are managed by SynEdit, but need distribution to shared edits
senrIncOwnedPaintLock, // Inform other SynEdits (ForeignPaintLock)
senrDecOwnedPaintLock,
senrIncPaintLock, // Actual PaintLock
senrDecPaintLock,
senrBeforeIncPaintLock, // For plugins, etc...
senrAfterIncPaintLock,
senrBeforeDecPaintLock,
senrAfterDecPaintLock,
senrTextBufferChanging, // About to change
senrTextBufferChanged
);
TPhysicalCharWidth = Byte;
TPhysicalCharWidths = Array of TPhysicalCharWidth;
PPhysicalCharWidth = ^TPhysicalCharWidth;
const
PCWMask = TPhysicalCharWidth($7f); // bits for widths
PCWFlagRTL = TPhysicalCharWidth($80); // RTL char
{ TSynLogicalPhysicalConvertor }
const
SYN_LP_MIN_ALLOC = 1024; // Keep at least n*SizeOf(TPhysicalCharWidths) allocated
type
TSynLogCharSide = (cslBefore, cslAfter, cslFollowLtr, cslFollowRtl);
TSynPhysCharSide = (cspLeft, cspRight, cspFollowLtr, cspFollowRtl);
TSynLogPhysFlag = (lpfAdjustToCharBegin, lpfAdjustToNextChar);
TSynLogPhysFlags = set of TSynLogPhysFlag;
const
cspDefault = cspFollowLtr;
cslDefault = cslFollowLtr;
(** LRL // L=Ltr-Char / R=RTl-Char
* LogToPhys
Log pos 1, is the pos between BOL and the first L.
cslBefore binds it to BOL / cslAfter binds it to "L"
cslBefore, cslAfter can not be mapped back, because the map 2 logical positions into the same phys pos
(1, cslBefore) => 1 // behind the BOL = Phys 2
(2, cslBefore) => 2 // behind the first L = Phys 2
(3, cslBefore) => 2 // behind the R = Phys 2 (logical behind the R, on screen that is to the left of R, because R is RTL)
(4, cslBefore) => 4 // behind the 2nd L = Phys 4
(1, cslAfter) => 1 // before the first L = Phys 1
(2, cslAfter) => 3 // before the R = Phys 3
(3, cslAfter) => 3 // before the 2nd L = Phys 3
(4, cslAfter) => 4 // before the EOL = Phys 4
(1, cslFollowLtr) => 1 // between BOL ant the 1st L = Phys 1
(2, cslFollowLtr) => 2 // follows Ltr, after the 1st L = Phys 2
(3, cslFollowLtr) => 3 // follows Ltr, before the 2nd L = Phys 3
(4, cslFollowLtr) => 4 // between the 2nd L and EOL = Phys 4
(1, cslFollowRtl) => 1 // between BOL ant the 1st L = Phys 1
(2, cslFollowRtl) => 3 // follows Rtl, before the R = Phys 3
(3, cslFollowRtl) => 2 // follows Rtl, after the R = Phys 2
(4, cslFollowRtl) => 4 // between the 2nd L and EOL = Phys 4
* PhysToLog
Phys pos 1, is the pos between BOL and the first L.
cspLeft binds it to BOL / cspRight binds it to "L"
(2, cspLeft) => 2 // looking to the left, using the first L = Log 2
(3, cspLeft) => 2 // looking to the left, using the R = Log 2 (Pysh 3 is logical before the R / between 1st L and R)
(2, cspRight) => 3 // looking to the right, using R = Log 3 (Pysh 2 is logical after the R / between R and 2nd L)
(3, cspRight) => 3 // looking to the right, using 2nd L = Log 3
*)
type
TSynLogicalPhysicalConvertor = class
private
FAdjustedLogToPhysOrigin: Integer;
FAdjustedPhysToLogOrigin: Integer;
FLines: TSynEditStrings;
FCurrentWidths: TPhysicalCharWidths;
FCurrentWidthsLen, FCurrentWidthsAlloc: Integer;
FCurrentLine: Integer;
FTextChangeStamp, FViewChangeStamp: Int64;
FUnAdjustedPhysToLogColOffs: Integer;
FUnAdjustedPhysToLogResult: Integer;
// TODOtab-width
function GetCurrentLine: Integer;
function GetCurrentWidths: PPhysicalCharWidth;
procedure PrepareWidthsForLine(AIndex: Integer; AForce: Boolean = False);
protected
procedure SetWidthsForLine(AIndex: Integer; ANewWidths: TPhysicalCharWidths);
public
constructor Create(ALines: TSynEditStrings);
destructor Destroy; override;
property CurrentLine: Integer read GetCurrentLine;
property CurrentWidths: PPhysicalCharWidth read GetCurrentWidths;
property CurrentWidthsCount: Integer read FCurrentWidthsLen;
public
// Line is 0-based // Column is 1-based
function PhysicalToLogical(AIndex, AColumn: Integer): Integer;
function PhysicalToLogical(AIndex, AColumn: Integer; out AColOffset: Integer;
ACharSide: TSynPhysCharSide= cspDefault;
AFlags: TSynLogPhysFlags = []): Integer;
// ACharPos 1=before 1st char
function LogicalToPhysical(AIndex, ABytePos: Integer): Integer;
function LogicalToPhysical(AIndex, ABytePos: Integer; var AColOffset: Integer;
ACharSide: TSynLogCharSide = cslDefault;
AFlags: TSynLogPhysFlags = []): Integer;
// properties set, if lpfAdjustTo... is used
// By LogToPhys
property AdjustedLogToPhysOrigin: Integer read FAdjustedLogToPhysOrigin;
// By PhysToLog
property AdjustedPhysToLogOrigin: Integer read FAdjustedPhysToLogOrigin;
property UnAdjustedPhysToLogResult: Integer read FUnAdjustedPhysToLogResult;
property UnAdjustedPhysToLogColOffs: Integer read FUnAdjustedPhysToLogColOffs;
end;
(*
TLazSynDisplayView:
- Represents the visible text
e.g. excludes folds, maps wrapped lines, ...
TSynEditStrings:
- Represents the entire text,
inluding temporary chars or text that may not be displayed.
Temporary chars (e.g. trailing spaces) may not be accesibl via SynEdit.Lines
- Can be Edited
*)
TLazSynDisplayTokenInfo = record
TokenStart: PChar;
TokenLength: integer;
TokenAttr: TSynHighlighterAttributes;
end;
TLineRange = record
Top, Bottom: TLineIdx;
end;
{ TLazSynDisplayView }
TLazSynDisplayView = class
private
FNextView: TLazSynDisplayView;
public
constructor Create;
property NextView: TLazSynDisplayView read FNextView write FNextView;
public
procedure InitHighlighterTokens(AHighlighter: TSynCustomHighlighter); virtual;
procedure SetHighlighterTokensLine(ALine: TLineIdx; out ARealLine: TLineIdx); virtual;
procedure FinishHighlighterTokens; virtual;
function GetNextHighlighterToken(out ATokenInfo: TLazSynDisplayTokenInfo): Boolean; virtual;
function GetLinesCount: Integer; virtual;
function GetDrawDividerInfo: TSynDividerDrawConfigSetting; virtual;
function TextToViewIndex(AIndex: TLineIdx): TLineRange; virtual;
function ViewToTextIndex(AIndex: TLineIdx): TLineIdx; virtual;
//function ViewToTextIndexEx(AIndex: TLineIdx; out AScreenRange: TLineRange): TLineIdx;
// todo: gutter info
end;
{ TLazSynDisplayViewEx }
TLazSynDisplayViewEx = class(TLazSynDisplayView)
private
FInitialized: boolean;
FCurrentTokenHighlighter: TSynCustomHighlighter;
FCurrentTokenLine: TLineIdx;
procedure SetCurrentTokenLine(AValue: TLineIdx);
protected
property Initialized: boolean read FInitialized;
property CurrentTokenHighlighter: TSynCustomHighlighter read FCurrentTokenHighlighter;
property CurrentTokenLine: TLineIdx read FCurrentTokenLine write SetCurrentTokenLine;
public
constructor Create;
procedure InitHighlighterTokens(AHighlighter: TSynCustomHighlighter); override;
procedure FinishHighlighterTokens; override;
end;
LPosFlag = (lpAllowPastEol, lpAdjustToNext, lpStopAtCodePoint);
LPosFlags = set of LPosFlag;
{ TSynEditStrings }
TSynEditStrings = class(TSynEditStringsBase)
private
FSenderUpdateCount: Integer;
FLogPhysConvertor :TSynLogicalPhysicalConvertor;
FLogPhysConvertorTmp :TSynLogicalPhysicalConvertor; // used by none buffered lines
protected
FIsUtf8: Boolean;
function GetIsUtf8 : Boolean; virtual;
procedure SetIsUtf8(const AValue : Boolean); virtual;
function GetExpandedString(Index: integer): string; virtual; abstract;
function GetLengthOfLongestLine: integer; virtual; abstract;
procedure SetTextStr(const Value: string); override;
function GetTextChangeStamp: int64; virtual; abstract;
function GetViewChangeStamp: int64; virtual;
function GetIsInEditAction: Boolean; virtual; abstract;
procedure IncIsInEditAction; virtual; abstract;
procedure DecIsInEditAction; virtual; abstract;
function GetUndoList: TSynEditUndoList; virtual; abstract;
function GetRedoList: TSynEditUndoList; virtual; abstract;
function GetCurUndoList: TSynEditUndoList; virtual; abstract;
procedure SetIsUndoing(const AValue: Boolean); virtual; abstract;
function GetIsUndoing: Boolean; virtual; abstract;
procedure SetIsRedoing(const AValue: Boolean); virtual; abstract;
function GetIsRedoing: Boolean; virtual; abstract;
procedure IgnoreSendNotification(AReason: TSynEditNotifyReason;
ReEnable: Boolean); virtual; abstract;
procedure SetUpdateState(Updating: Boolean); override;
procedure SetUpdateState(Updating: Boolean; Sender: TObject); virtual; abstract;
procedure DoGetPhysicalCharWidths(Line: PChar; LineLen, Index: Integer; PWidths: PPhysicalCharWidth); virtual; abstract;
function GetDisplayView: TLazSynDisplayView; virtual;
public
constructor Create;
destructor Destroy; override;
procedure BeginUpdate(Sender: TObject); overload;
procedure EndUpdate(Sender: TObject); overload;
function IsUpdating: Boolean;
// Currently Lines are physical
procedure DeleteLines(Index, NumLines: integer); virtual; abstract;
procedure InsertLines(Index, NumLines: integer); virtual; abstract;
procedure InsertStrings(Index: integer; NewStrings: TStrings); virtual; abstract;
procedure AddGenericHandler(AReason: TSynEditNotifyReason;
AHandler: TMethod); virtual; abstract;
procedure AddModifiedHandler(AReason: TSynEditNotifyReason;
AHandler: TStringListLinesModifiedEvent);
procedure AddChangeHandler(AReason: TSynEditNotifyReason;
AHandler: TStringListLineCountEvent);
procedure AddNotifyHandler(AReason: TSynEditNotifyReason;
AHandler: TNotifyEvent);
procedure RemoveGenericHandler(AReason: TSynEditNotifyReason;
AHandler: TMethod); virtual; abstract;
procedure RemoveModifiedHandler(AReason: TSynEditNotifyReason;
AHandler: TStringListLinesModifiedEvent);
procedure RemoveChangeHandler(AReason: TSynEditNotifyReason;
AHandler: TStringListLineCountEvent);
procedure RemoveNotifyHandler(AReason: TSynEditNotifyReason;
AHandler: TNotifyEvent);
procedure AddEditHandler(AHandler: TStringListLineEditEvent);
procedure RemoveEditHandler(AHandler: TStringListLineEditEvent);
procedure SendHighlightChanged(aIndex, aCount: Integer); override;
procedure SendNotification(AReason: TSynEditNotifyReason;
ASender: TSynEditStrings; aIndex, aCount: Integer); virtual; abstract;
procedure SendNotification(AReason: TSynEditNotifyReason;
ASender: TSynEditStrings; aIndex, aCount: Integer;
aBytePos: Integer; aLen: Integer; aTxt: String); virtual; abstract;
procedure SendNotification(AReason: TSynEditNotifyReason;
ASender: TObject); virtual; abstract;
procedure FlushNotificationCache; virtual; abstract;
public
// Char bounds // 1 based (1 is the 1st char in the line)
function LogicPosAddChars(const ALine: String; ALogicalPos, ACount: integer;
AFlags: LPosFlags = []): Integer; virtual; abstract;
function LogicPosIsAtChar(const ALine: String; ALogicalPos: integer;
AFlags: LPosFlags = []): Boolean; virtual; abstract;
function LogicPosAdjustToChar(const ALine: String; ALogicalPos: integer;
AFlags: LPosFlags = []): Integer; virtual; abstract;
function LogicPosAddChars(const ALine: String; ALogicalPos, ACount: integer;
AllowPastEOL: Boolean): Integer; // deprecated;
function LogicPosAdjustToChar(const ALine: String; ALogicalPos: integer;
ANext: Boolean; AllowPastEOL: Boolean = False): Integer; // deprecated;
// CharWidths
function GetPhysicalCharWidths(Index: Integer): TPhysicalCharWidths;
function GetPhysicalCharWidths(Line: PChar; LineLen, Index: Integer): TPhysicalCharWidths;
// Byte to Char
function LogicalToPhysicalPos(const p: TPoint): TPoint;
function LogicalToPhysicalCol(const Line: String;
Index, LogicalPos: integer): integer; virtual; //deprecated;
// Char to Byte
function PhysicalToLogicalPos(const p: TPoint): TPoint;
function PhysicalToLogicalCol(const Line: string;
Index, PhysicalPos: integer): integer; virtual; //deprecated;
property LogPhysConvertor :TSynLogicalPhysicalConvertor read FLogPhysConvertor;
public
// Currently Lines are physical
procedure EditInsert(LogX, LogY: Integer; AText: String); virtual; abstract;
function EditDelete(LogX, LogY, ByteLen: Integer): String; virtual; abstract;
function EditReplace(LogX, LogY, ByteLen: Integer; AText: String): String; virtual; abstract;
procedure EditLineBreak(LogX, LogY: Integer); virtual; abstract;
procedure EditLineJoin(LogY: Integer; FillText: String = ''); virtual; abstract;
procedure EditLinesInsert(LogY, ACount: Integer; AText: String = ''); virtual; abstract;
procedure EditLinesDelete(LogY, ACount: Integer); virtual; abstract;
procedure EditUndo(Item: TSynEditUndoItem); virtual; abstract;
procedure EditRedo(Item: TSynEditUndoItem); virtual; abstract;
(* IsInEditAction
While in EditAction a "senrEditAction" event is triggerred, that contains
more detailed line-count change info.
Yet senrLineCount is also sent.
IsInEditAction allows one to skip senrLineCount, that are sent as senrEditAction
Currently used by FoldView
*)
property IsInEditAction: Boolean read GetIsInEditAction; // Todo: have individual event types instead
property UndoList: TSynEditUndoList read GetUndoList;
property RedoList: TSynEditUndoList read GetRedoList;
property CurUndoList: TSynEditUndoList read GetCurUndoList; // Re or Undo (Redo while undoing)
property IsUndoing: Boolean read GetIsUndoing write SetIsUndoing;
property IsRedoing: Boolean read GetIsRedoing write SetIsRedoing;
public
property TextChangeStamp: int64 read GetTextChangeStamp;
property ViewChangeStamp: int64 read GetViewChangeStamp; // tabs-size, trailing-spaces, ...
property ExpandedStrings[Index: integer]: string read GetExpandedString;
property LengthOfLongestLine: integer read GetLengthOfLongestLine;
property IsUtf8: Boolean read GetIsUtf8 write SetIsUtf8;
public
property DisplayView: TLazSynDisplayView read GetDisplayView;
end;
{ TSynEditStringsLinked }
TSynEditStringsLinked = class(TSynEditStrings)
private
procedure SetSynStrings(AValue: TSynEditStrings);
protected
fSynStrings: TSynEditStrings;
function GetIsUtf8 : Boolean; override;
procedure SetIsUtf8(const AValue : Boolean); override;
function GetTextChangeStamp: int64; override;
function GetViewChangeStamp: int64; override;
function GetRange(Index: Pointer): TSynManagedStorageMem; override;
procedure PutRange(Index: Pointer; const ARange: TSynManagedStorageMem); override;
function GetExpandedString(Index: integer): string; override;
function GetLengthOfLongestLine: integer; override;
procedure IgnoreSendNotification(AReason: TSynEditNotifyReason;
IncIgnore: Boolean); override;
function GetIsInEditAction: Boolean; override;
procedure IncIsInEditAction; override;
procedure DecIsInEditAction; override;
function GetUndoList: TSynEditUndoList; override;
function GetRedoList: TSynEditUndoList; override;
function GetCurUndoList: TSynEditUndoList; override;
procedure SetIsUndoing(const AValue: Boolean); override;
function GetIsUndoing: Boolean; override;
procedure SetIsRedoing(const AValue: Boolean); override;
function GetIsRedoing: Boolean; override;
protected
function GetCount: integer; override;
function GetCapacity: integer; override;
procedure SetCapacity(NewCapacity: integer); override;
function Get(Index: integer): string; override;
function GetObject(Index: integer): TObject; override;
procedure Put(Index: integer; const S: string); override;
procedure PutObject(Index: integer; AObject: TObject); override;
procedure SetUpdateState(Updating: Boolean; Sender: TObject); override;
procedure DoGetPhysicalCharWidths(Line: PChar; LineLen, Index: Integer; PWidths: PPhysicalCharWidth); override;
function GetDisplayView: TLazSynDisplayView; override;
public
constructor Create(ASynStringSource: TSynEditStrings);
function Add(const S: string): integer; override;
procedure AddStrings(AStrings: TStrings); override;
procedure Clear; override;
procedure Delete(Index: integer); override;
procedure DeleteLines(Index, NumLines: integer); override;
procedure Insert(Index: integer; const S: string); override;
procedure InsertLines(Index, NumLines: integer); override;
procedure InsertStrings(Index: integer; NewStrings: TStrings); override;
function GetPChar(ALineIndex: Integer; out ALen: Integer): PChar; override; // experimental
procedure AddGenericHandler(AReason: TSynEditNotifyReason;
AHandler: TMethod); override;
procedure RemoveGenericHandler(AReason: TSynEditNotifyReason;
AHandler: TMethod); override;
procedure SendNotification(AReason: TSynEditNotifyReason;
ASender: TSynEditStrings; aIndex, aCount: Integer); override;
procedure SendNotification(AReason: TSynEditNotifyReason;
ASender: TSynEditStrings; aIndex, aCount: Integer;
aBytePos: Integer; aLen: Integer; aTxt: String); override;
procedure SendNotification(AReason: TSynEditNotifyReason;
ASender: TObject); override;
procedure FlushNotificationCache; override;
//function GetPhysicalCharWidths(Line: PChar; LineLen, Index: Integer): TPhysicalCharWidths; override;
property NextLines: TSynEditStrings read fSynStrings write SetSynStrings;
public
// Char bounds // 1 based (1 is the 1st char in the line)
function LogicPosAddChars(const ALine: String; ALogicalPos, ACount: integer;
AFlags: LPosFlags = []): Integer; override;
function LogicPosIsAtChar(const ALine: String; ALogicalPos: integer;
AFlags: LPosFlags = []): Boolean; override;
function LogicPosAdjustToChar(const ALine: String; ALogicalPos: integer;
AFlags: LPosFlags = []): Integer; override;
// LogX, LogY are 1-based
procedure EditInsert(LogX, LogY: Integer; AText: String); override;
function EditDelete(LogX, LogY, ByteLen: Integer): String; override;
function EditReplace(LogX, LogY, ByteLen: Integer; AText: String): String; override;
procedure EditLineBreak(LogX, LogY: Integer); override;
procedure EditLineJoin(LogY: Integer; FillText: String = ''); override;
procedure EditLinesInsert(LogY, ACount: Integer; AText: String = ''); override;
procedure EditLinesDelete(LogY, ACount: Integer); override;
procedure EditUndo(Item: TSynEditUndoItem); override;
procedure EditRedo(Item: TSynEditUndoItem); override;
end;
implementation
{ TLazSynDisplayViewEx }
procedure TLazSynDisplayViewEx.SetCurrentTokenLine(AValue: TLineIdx);
begin
{$IFDEF SynAssert}
if not Initialized then
raise Exception.Create('uninitialized SetCurrentTokenLine');
{$ENDIF}
FCurrentTokenLine := AValue;
end;
constructor TLazSynDisplayViewEx.Create;
begin
inherited Create;
FInitialized := False;
end;
procedure TLazSynDisplayViewEx.InitHighlighterTokens(AHighlighter: TSynCustomHighlighter);
begin
{$IFDEF SynAssert}
if FInitialized then
raise Exception.Create('Nested InitHighlighterTokensForLine');
{$ENDIF}
FCurrentTokenHighlighter := AHighlighter;
FCurrentTokenLine := -1;
FInitialized := True;
inherited;
end;
procedure TLazSynDisplayViewEx.FinishHighlighterTokens;
begin
FCurrentTokenHighlighter := nil;
FInitialized := False;
inherited;
end;
{ TLazSynDisplayView }
constructor TLazSynDisplayView.Create;
begin
FNextView := nil;
end;
procedure TLazSynDisplayView.InitHighlighterTokens(AHighlighter: TSynCustomHighlighter);
begin
if assigned(FNextView) then
FNextView.InitHighlighterTokens(AHighlighter);
end;
procedure TLazSynDisplayView.SetHighlighterTokensLine(ALine: TLineIdx; out ARealLine: TLineIdx);
begin
if assigned(FNextView) then
FNextView.SetHighlighterTokensLine(ALine, ARealLine);
end;
procedure TLazSynDisplayView.FinishHighlighterTokens;
begin
if assigned(FNextView) then
FNextView.FinishHighlighterTokens;
end;
function TLazSynDisplayView.GetNextHighlighterToken(out ATokenInfo: TLazSynDisplayTokenInfo): Boolean;
begin
if assigned(FNextView) then
Result := FNextView.GetNextHighlighterToken(ATokenInfo)
else
Result := False;
end;
function TLazSynDisplayView.GetLinesCount: Integer;
begin
if assigned(FNextView) then
Result := FNextView.GetLinesCount
else
Result := 0;
end;
function TLazSynDisplayView.GetDrawDividerInfo: TSynDividerDrawConfigSetting;
begin
if assigned(FNextView) then
Result := FNextView.GetDrawDividerInfo
else
Result.Color := clNone;
end;
function TLazSynDisplayView.TextToViewIndex(AIndex: TLineIdx): TLineRange;
begin
Result := NextView.TextToViewIndex(AIndex);
end;
function TLazSynDisplayView.ViewToTextIndex(AIndex: TLineIdx): TLineIdx;
begin
Result := NextView.ViewToTextIndex(AIndex);
end;
{ TSynLogicalPhysicalConvertor }
procedure TSynLogicalPhysicalConvertor.PrepareWidthsForLine(AIndex: Integer;
AForce: Boolean);
var
LineLen: Integer;
Line: PChar;
//const dbg_cnt: integer = 0;
begin
if (not AForce) and (FCurrentLine = AIndex) and
(FLines.TextChangeStamp = FTextChangeStamp) and (FLines.ViewChangeStamp = FViewChangeStamp)
then begin
//debugln(['**************** RE-USING widths: ', AIndex,' (',dbgs(Pointer(self)),')']);
//dbg_cnt := dbg_cnt + 1;
exit;
end;
if (AIndex < 0) or (AIndex >= FLines.Count) then begin
FCurrentLine := -1;
FCurrentWidthsLen := 0;
FViewChangeStamp := FLines.ViewChangeStamp;
FTextChangeStamp := FLines.TextChangeStamp;
exit;
end;
Line := FLines.GetPChar(AIndex, LineLen);
if LineLen > FCurrentWidthsAlloc then begin
//debugln(['**************** COMPUTING widths (grow): ', AIndex,' (',dbgs(Pointer(self)),') old-alloc=', FCurrentWidthsAlloc, ' new-len=',LineLen]);
SetLength(FCurrentWidths, LineLen);
FCurrentWidthsAlloc := LineLen;
end
else if FCurrentWidthsAlloc > Max(Max(LineLen, FCurrentWidthsLen)*4, SYN_LP_MIN_ALLOC) then begin
//debugln(['**************** COMPUTING widths (shrink): ', AIndex,' (',dbgs(Pointer(self)),') old-alloc=', FCurrentWidthsAlloc, ' new-len=',LineLen]);
FCurrentWidthsAlloc := Max(Max(LineLen, FCurrentWidthsLen), SYN_LP_MIN_ALLOC) ;
SetLength(FCurrentWidths, FCurrentWidthsAlloc);
//end
//else begin
// debugln(['**************** COMPUTING widths: ', AIndex,' (',dbgs(Pointer(self)),') alloc=',FCurrentWidthsAlloc]);
end;
//debugln(['**************** NEW for index:: ', AIndex,' (',dbgs(Pointer(self)),') after index: ', FCurrentLine, ' used ', dbg_cnt,' times // old-alloc=', FCurrentWidthsAlloc, ' new-len=',LineLen, ' viewchg:',dbgs(not(FViewChangeStamp=FLines.ViewChangeStamp)),' txtchg:',dbgs(not(FTextChangeStamp=FLines.TextChangeStamp))]); dbg_cnt := 0;
FCurrentWidthsLen := LineLen;
if LineLen > 0 then
FLines.DoGetPhysicalCharWidths(Line, LineLen, AIndex, @FCurrentWidths[0]);
FViewChangeStamp := FLines.ViewChangeStamp;
FTextChangeStamp := FLines.TextChangeStamp;
FCurrentLine := AIndex;
end;
function TSynLogicalPhysicalConvertor.GetCurrentWidths: PPhysicalCharWidth;
begin
if FCurrentWidthsLen > 0
then Result := @FCurrentWidths[0]
else Result := nil;
end;
function TSynLogicalPhysicalConvertor.GetCurrentLine: Integer;
begin
if (FLines.TextChangeStamp = FTextChangeStamp) and (FLines.ViewChangeStamp = FViewChangeStamp)
then Result := FCurrentLine
else Result := -1;
end;
procedure TSynLogicalPhysicalConvertor.SetWidthsForLine(AIndex: Integer;
ANewWidths: TPhysicalCharWidths);
begin
FCurrentWidths := ANewWidths;
FCurrentWidthsLen := length(ANewWidths);
FCurrentWidthsAlloc := FCurrentWidthsLen;
FCurrentLine := AIndex;
FViewChangeStamp := FLines.ViewChangeStamp;
FTextChangeStamp := FLines.TextChangeStamp;
end;
constructor TSynLogicalPhysicalConvertor.Create(ALines: TSynEditStrings);
begin
FLines := ALines;
FCurrentLine := -1;
FCurrentWidths := nil;
FCurrentWidthsLen := 0;
FCurrentWidthsAlloc := 0;
end;
destructor TSynLogicalPhysicalConvertor.Destroy;
begin
SetLength(FCurrentWidths, 0);
inherited Destroy;
end;
function TSynLogicalPhysicalConvertor.PhysicalToLogical(AIndex,
AColumn: Integer): Integer;
var
ColOffs: Integer;
begin
Result := PhysicalToLogical(AIndex, AColumn, ColOffs);
end;
function TSynLogicalPhysicalConvertor.PhysicalToLogical(AIndex, AColumn: Integer; out
AColOffset: Integer; ACharSide: TSynPhysCharSide; AFlags: TSynLogPhysFlags): Integer;
var
BytePos, ScreenPos, ScreenPosOld: integer;
RtlPos, RtlScreen: Integer;
begin
FAdjustedPhysToLogOrigin := AColumn;
FUnAdjustedPhysToLogResult := AColumn;
FUnAdjustedPhysToLogColOffs := 0;
AColOffset := 0;
{$IFnDEF WithOutSynBiDi}
if (AColumn = 0) or ((AColumn = 1) and (ACharSide in [cspLeft, cspFollowLtr])) then
exit(AColumn);
{$ELSE}
if (AColumn = 0) or (AColumn = 1) then
exit(AColumn);
{$ENDIF}
PrepareWidthsForLine(AIndex);
ScreenPos := 1;
BytePos := 0;
{$IFnDEF WithOutSynBiDi }
while BytePos < FCurrentWidthsLen do begin
if ((FCurrentWidths[BytePos] and PCWMask) = 0) then begin
inc(BytePos);
continue;
end;
// currently Ltr
if (ScreenPos = AColumn) and (ACharSide in [cspLeft, cspFollowLtr]) then begin
AColOffset := 0;
FUnAdjustedPhysToLogResult := BytePos+1;
exit(BytePos+1);
end;
(* Inner RTL Loop *)
If ((FCurrentWidths[BytePos] and PCWFlagRTL) <> 0) then begin
RtlPos := BytePos;
RtlScreen := 0;
while (RtlPos < FCurrentWidthsLen) do begin
if ((FCurrentWidths[RtlPos] and PCWMask) = 0) then begin
inc(RtlPos);
continue;
end;
If ((FCurrentWidths[RtlPos] and PCWFlagRTL) = 0) then
break;
RtlScreen := RtlScreen + (FCurrentWidths[RtlPos] and PCWMask);
inc(RtlPos);
end;
// RtlScreen is now the screen width of the RTL run
ScreenPos := ScreenPos + RtlScreen;
if (ScreenPos = AColumn) and (ACharSide in [cspLeft, cspFollowRtl]) then begin
AColOffset := 0;
FUnAdjustedPhysToLogResult := BytePos+1;
exit(BytePos+1);
end
else
if ScreenPos > AColumn then begin
// Search in RTL
while BytePos < FCurrentWidthsLen do begin
if ((FCurrentWidths[BytePos] and PCWMask) = 0) then begin
inc(BytePos);
continue;
end;
ScreenPosOld := ScreenPos;
ScreenPos := ScreenPos - (FCurrentWidths[BytePos] and PCWMask);
inc(BytePos);
if (ScreenPos < AColumn) then begin
AColOffset := ScreenPosOld - AColumn;
FUnAdjustedPhysToLogResult := BytePos;
FUnAdjustedPhysToLogColOffs := AColOffset;
if (AColOffset <> 0) then begin
if lpfAdjustToCharBegin in AFlags then begin
FAdjustedPhysToLogOrigin := ScreenPosOld;
AColOffset := 0;
end
else if lpfAdjustToNextChar in AFlags then begin
FAdjustedPhysToLogOrigin := ScreenPos;
AColOffset := 0;
while (BytePos < FCurrentWidthsLen) and ((FCurrentWidths[BytePos] and PCWMask) = 0) do
inc(BytePos);
inc(BytePos);
end;
end;
exit(BytePos);
end;
end;
if (ScreenPos = AColumn) then begin
AColOffset := 0;
FUnAdjustedPhysToLogResult := BytePos+1;
exit(BytePos+1);
end;
// past EOL, line ends with RTL
break; // Leave the outer loop
end;
// Cuntinue in LTR
BytePos := RtlPos;
assert(BytePos <= FCurrentWidthsLen, 'BytePos <= FCurrentWidthsLen');
if BytePos >= FCurrentWidthsLen then
break; // Leave the outer loop
end;
(* Inner RTL Loop END *)
ScreenPosOld := ScreenPos;
ScreenPos := ScreenPos + (FCurrentWidths[BytePos] and PCWMask);
inc(BytePos);
if ScreenPos > AColumn then begin
AColOffset := AColumn - ScreenPosOld;
FUnAdjustedPhysToLogResult := BytePos;
FUnAdjustedPhysToLogColOffs := AColOffset;
if (AColOffset <> 0) then begin
if lpfAdjustToCharBegin in AFlags then begin
FAdjustedPhysToLogOrigin := ScreenPosOld;
AColOffset := 0;
end
else if lpfAdjustToNextChar in AFlags then begin
FAdjustedPhysToLogOrigin := ScreenPos;
AColOffset := 0;
while (BytePos < FCurrentWidthsLen) and ((FCurrentWidths[BytePos] and PCWMask) = 0) do
inc(BytePos);
inc(BytePos);
end;
end;
exit(BytePos);
end;
end;
{$ELSE}
while BytePos < FCurrentWidthsLen do begin
ScreenPosOld := ScreenPos;
ScreenPos := ScreenPos + (FCurrentWidths[BytePos] and PCWMask);
inc(BytePos);
if ScreenPos > AColumn then begin
AColOffset := AColumn - ScreenPosOld;
FUnAdjustedPhysToLogResult := BytePos;
FUnAdjustedPhysToLogColOffs := AColOffset;
if (AColOffset <> 0) then begin
if lpfAdjustToCharBegin in AFlags then begin
FAdjustedPhysToLogOrigin := ScreenPosOld;
AColOffset := 0;
end
else if lpfAdjustToNextChar in AFlags then begin
FAdjustedPhysToLogOrigin := ScreenPos;
AColOffset := 0;
while (BytePos < FCurrentWidthsLen) and ((FCurrentWidths[BytePos] and PCWMask) = 0) do
inc(BytePos);
inc(BytePos);
end;
end;
exit(BytePos);
end;
end;
{$ENDIF}
// Column at/past end of line
AColOffset := 0;
Result := BytePos + 1 + AColumn - ScreenPos;
FUnAdjustedPhysToLogResult := Result;
end;
function TSynLogicalPhysicalConvertor.LogicalToPhysical(AIndex,
ABytePos: Integer): Integer;
var
ColOffs: Integer;
begin
ColOffs := 0;
Result := LogicalToPhysical(AIndex, ABytePos, ColOffs);
end;
function TSynLogicalPhysicalConvertor.LogicalToPhysical(AIndex, ABytePos: Integer;
var AColOffset: Integer; ACharSide: TSynLogCharSide; AFlags: TSynLogPhysFlags): Integer;
var
i: integer;
RtlLen: Integer;
begin
FAdjustedLogToPhysOrigin := ABytePos;
{$IFDEF AssertSynMemIndex}
if (ABytePos <= 0) then
raise Exception.Create(Format('Bad Bytpos for PhystoLogical BytePos=%d ColOffs= %d idx= %d',[ABytePos, AColOffset, AIndex]));
{$ENDIF}
assert(ABytePos > 0, 'What uses abytepos = 0 ?');
{$IFnDEF WithOutSynBiDi}
if (ABytePos = 0) or ((ABytePos = 1) and (AColOffset=0) and (ACharSide in [cslBefore, cslFollowLtr])) then
exit(ABytePos);
{$ELSE}
if (ABytePos = 0) or ((ABytePos = 1) and (AColOffset=0)) then
exit(ABytePos);
{$ENDIF}
PrepareWidthsForLine(AIndex);
dec(ABytePos);
if ABytePos < FCurrentWidthsLen then begin
if (FCurrentWidths[ABytePos] and PCWMask) = 0 then begin
if lpfAdjustToCharBegin in AFlags then begin
while (ABytePos > 0) and ((FCurrentWidths[ABytePos] and PCWMask) = 0) do
dec(ABytePos);
end
else
if lpfAdjustToNextChar in AFlags then begin
while (ABytePos < FCurrentWidthsLen) and ((FCurrentWidths[ABytePos] and PCWMask) = 0) do
inc(ABytePos);
end;
FAdjustedLogToPhysOrigin := ABytePos+1;
assert((FCurrentWidths[ABytePos] and PCWMask) <> 0, 'LogicalToPhysical at char');
end;
if ABytePos < FCurrentWidthsLen then
AColOffset := Min(AColOffset, (FCurrentWidths[ABytePos] and PCWMask)-1);
Result := 1 + AColOffset;
end;
if ABytePos >= FCurrentWidthsLen then
begin
Result := 1 + ABytePos - FCurrentWidthsLen;
if Result > 1 then
ACharSide := cslAfter;
ABytePos := FCurrentWidthsLen;
AColOffset := 0;
end;
RtlLen := 0;
for i := 0 to ABytePos - 1 do begin
if ((FCurrentWidths[i] and PCWMask) = 0) then
continue;
{$IFnDEF WithOutSynBiDi}
If ((FCurrentWidths[i] and PCWFlagRTL) <> 0) then
RtlLen := RtlLen + (FCurrentWidths[i] and PCWMask)
else begin
Result := Result + RtlLen + (FCurrentWidths[i] and PCWMask);
RtlLen := 0;
end;
{$ELSE}
Result := Result + (FCurrentWidths[i] and PCWMask);
{$ENDIF}
end;
{$IFnDEF WithOutSynBiDi}
if (ABytePos < FCurrentWidthsLen) and
((FCurrentWidths[ABytePos] and PCWFlagRTL) <> 0) and // Next Char is Rtl
( (RtlLen > 0) or // char is in the middle of the RTL run
(ACharSide in [cslAfter, cslFollowRtl]) // may be before rtl run, but want to include entire run (1st log rtl-char is phys at other end)
)
then begin
i := ABytePos;
// Add the remaining RTL chars
while (i < FCurrentWidthsLen) and
( ((FCurrentWidths[i] and PCWFlagRTL) <> 0) or ((FCurrentWidths[i] and PCWMask) = 0) )
do begin
Result := Result + (FCurrentWidths[i] and PCWMask);
inc(i);
end;
end
else
if (ABytePos > FCurrentWidthsLen) or
(ACharSide in [cslAfter, cslFollowLtr]) and
( (ABytePos = FCurrentWidthsLen) or
( (ABytePos < FCurrentWidthsLen) and ((FCurrentWidths[ABytePos] and PCWFlagRTL) = 0) )
) // next char is LTR
then
Result := Result + RtlLen;
{$ENDIF}
end;
{ TSynEditStrings }
constructor TSynEditStrings.Create;
begin
FLogPhysConvertor := TSynLogicalPhysicalConvertor.Create(self);
FLogPhysConvertorTmp := TSynLogicalPhysicalConvertor.Create(self);
inherited Create;
IsUtf8 := True;
end;
destructor TSynEditStrings.Destroy;
begin
FreeAndNil(FLogPhysConvertor);
FreeAndNil(FLogPhysConvertorTmp);
inherited Destroy;
end;
procedure TSynEditStrings.BeginUpdate(Sender: TObject);
begin
if FSenderUpdateCount = 0 then
SetUpdateState(true, Sender);
inc(FSenderUpdateCount);
end;
procedure TSynEditStrings.EndUpdate(Sender: TObject);
begin
If FSenderUpdateCount>0 then
Dec(FSenderUpdateCount);
if FSenderUpdateCount=0 then
SetUpdateState(False, Sender);
end;
function TSynEditStrings.IsUpdating: Boolean;
begin
Result := (FSenderUpdateCount > 0) or (UpdateCount > 0);
end;
procedure TSynEditStrings.AddModifiedHandler(AReason: TSynEditNotifyReason;
AHandler: TStringListLinesModifiedEvent);
begin
assert(AReason in [senrLinesModified], 'AddModifiedHandler');
AddGenericHandler(AReason, TMethod(AHandler));
end;
procedure TSynEditStrings.AddChangeHandler(AReason: TSynEditNotifyReason;
AHandler: TStringListLineCountEvent);
begin
AddGenericHandler(AReason, TMethod(AHandler));
end;
procedure TSynEditStrings.AddNotifyHandler(AReason: TSynEditNotifyReason;
AHandler: TNotifyEvent);
begin
AddGenericHandler(AReason, TMethod(AHandler));
end;
procedure TSynEditStrings.RemoveModifiedHandler(AReason: TSynEditNotifyReason;
AHandler: TStringListLinesModifiedEvent);
begin
assert(AReason in [senrLinesModified], 'RemoveModifiedHandler');
RemoveGenericHandler(AReason, TMethod(AHandler));
end;
procedure TSynEditStrings.RemoveChangeHandler(AReason: TSynEditNotifyReason;
AHandler: TStringListLineCountEvent);
begin
RemoveGenericHandler(AReason, TMethod(AHandler));
end;
procedure TSynEditStrings.RemoveNotifyHandler(AReason: TSynEditNotifyReason;
AHandler: TNotifyEvent);
begin
RemoveGenericHandler(AReason, TMethod(AHandler));
end;
procedure TSynEditStrings.AddEditHandler(AHandler: TStringListLineEditEvent);
begin
AddGenericHandler(senrEditAction, TMethod(AHandler));
end;
procedure TSynEditStrings.RemoveEditHandler(AHandler: TStringListLineEditEvent);
begin
RemoveGenericHandler(senrEditAction, TMethod(AHandler));
end;
procedure TSynEditStrings.SendHighlightChanged(aIndex, aCount: Integer);
begin
SendNotification(senrHighlightChanged, Self, aIndex, aCount);
end;
function TSynEditStrings.LogicPosAddChars(const ALine: String; ALogicalPos, ACount: integer;
AllowPastEOL: Boolean): Integer;
begin
if AllowPastEOL
then Result := LogicPosAddChars(ALine, ALogicalPos, ACount, [lpAllowPastEol])
else Result := LogicPosAddChars(ALine, ALogicalPos, ACount, []);
end;
function TSynEditStrings.LogicPosAdjustToChar(const ALine: String; ALogicalPos: integer;
ANext: Boolean; AllowPastEOL: Boolean): Integer;
var
f: LPosFlags;
begin
if AllowPastEOL
then f := [lpAllowPastEol]
else f := [];
if ANext
then f := f + [lpAdjustToNext];
Result := LogicPosAdjustToChar(ALine, ALogicalPos, f);
end;
function TSynEditStrings.GetPhysicalCharWidths(Index: Integer): TPhysicalCharWidths;
var
s: string;
begin
s := Strings[Index];
Result := GetPhysicalCharWidths(PChar(s), length(s), Index);
end;
function TSynEditStrings.GetPhysicalCharWidths(Line: PChar; LineLen,
Index: Integer): TPhysicalCharWidths;
begin
SetLength(Result, LineLen);
if LineLen = 0 then
exit;
DoGetPhysicalCharWidths(Line, LineLen, Index, @Result[0]);
end;
function TSynEditStrings.GetDisplayView: TLazSynDisplayView;
begin
Result := nil;
end;
function TSynEditStrings.GetIsUtf8 : Boolean;
begin
Result := FIsUtf8;
end;
procedure TSynEditStrings.SetIsUtf8(const AValue : Boolean);
begin
FIsUtf8 := AValue;
end;
procedure TSynEditStrings.SetTextStr(const Value : string);
var
StartPos: PChar;
p: PChar;
Last: PChar;
sl: TStringList;
s: string;
begin
if Value='' then begin
Clear;
exit;
end;
BeginUpdate;
sl:=TStringList.Create;
try
Clear;
p:=PChar(Value);
StartPos:=p;
Last:=p+length(Value);
while p<Last do begin
if not (p^ in [#10,#13]) then begin
inc(p);
end else begin
SetLength(s,p-StartPos);
if s<>'' then
System.Move(StartPos^,s[1],length(s));
sl.Add(s);
if (p[1] in [#10,#13]) and (p[1]<>p^) then
inc(p);
inc(p);
StartPos:=p;
end;
end;
if StartPos<Last then begin
SetLength(s,Last-StartPos);
if s<>'' then
System.Move(StartPos^,s[1],length(s));
sl.Add(s);
end;
AddStrings(sl);
finally
sl.Free;
EndUpdate;
end;
end;
function TSynEditStrings.GetViewChangeStamp: int64;
begin
Result := 0;
end;
procedure TSynEditStrings.SetUpdateState(Updating: Boolean);
begin
// Update/check "FSenderUpdateCount", to avoid extra locking/unlocking
if Updating then
BeginUpdate(nil)
else
EndUpdate(nil);
end;
function TSynEditStrings.LogicalToPhysicalPos(const p : TPoint) : TPoint;
begin
Result := p;
Result.X := FLogPhysConvertor.LogicalToPhysical(p.y - 1, p.x);
// if Result.Y - 1 < Count then
// Result.X:=LogicalToPhysicalCol(self[Result.Y - 1], Result.Y, Result.X);
end;
function TSynEditStrings.LogicalToPhysicalCol(const Line : String;
Index, LogicalPos: integer) : integer;
var
CharWidths: TPhysicalCharWidths;
begin
CharWidths := GetPhysicalCharWidths(Pchar(Line), length(Line), Index);
FLogPhysConvertorTmp.SetWidthsForLine(-9, CharWidths);
Result := FLogPhysConvertorTmp.LogicalToPhysical(-9 , LogicalPos);
end;
function TSynEditStrings.PhysicalToLogicalPos(const p : TPoint) : TPoint;
begin
Result := p;
Result.X := FLogPhysConvertor.PhysicalToLogical(p.y - 1, p.x);
// if (Result.Y>=1) and (Result.Y <= Count) then
// Result.X:=PhysicalToLogicalCol(self[Result.Y - 1], Result.Y - 1, Result.X);
end;
function TSynEditStrings.PhysicalToLogicalCol(const Line : string;
Index, PhysicalPos : integer) : integer;
var
CharWidths: TPhysicalCharWidths;
begin
CharWidths := GetPhysicalCharWidths(PChar(Line), length(Line), Index);
FLogPhysConvertorTmp.SetWidthsForLine(-9, CharWidths);
Result := FLogPhysConvertorTmp.PhysicalToLogical(-9 , PhysicalPos);
end;
{ TSynEditStringsLinked }
constructor TSynEditStringsLinked.Create(ASynStringSource: TSynEditStrings);
begin
fSynStrings := ASynStringSource;
Inherited Create;
end;
function TSynEditStringsLinked.Add(const S: string): integer;
begin
Result := fSynStrings.Add(S);
end;
procedure TSynEditStringsLinked.AddStrings(AStrings: TStrings);
begin
fSynStrings.AddStrings(AStrings);
end;
procedure TSynEditStringsLinked.Clear;
begin
fSynStrings.Clear;
end;
procedure TSynEditStringsLinked.Delete(Index: integer);
begin
fSynStrings.Delete(Index);
end;
procedure TSynEditStringsLinked.DeleteLines(Index, NumLines: integer);
begin
fSynStrings.DeleteLines(Index, NumLines);
end;
procedure TSynEditStringsLinked.Insert(Index: integer; const S: string);
begin
fSynStrings.Insert(Index, S);
end;
procedure TSynEditStringsLinked.InsertLines(Index, NumLines: integer);
begin
fSynStrings.InsertLines(Index, NumLines);
end;
procedure TSynEditStringsLinked.InsertStrings(Index: integer; NewStrings: TStrings);
begin
fSynStrings.InsertStrings(Index, NewStrings);
end;
function TSynEditStringsLinked.GetPChar(ALineIndex: Integer; out ALen: Integer): PChar;
begin
Result := fSynStrings.GetPChar(ALineIndex, ALen);
end;
procedure TSynEditStringsLinked.SetIsUndoing(const AValue: Boolean);
begin
fSynStrings.IsUndoing := AValue;
end;
function TSynEditStringsLinked.GetIsUndoing: Boolean;
begin
Result := fSynStrings.IsUndoing;
end;
procedure TSynEditStringsLinked.SetIsRedoing(const AValue: Boolean);
begin
fSynStrings.IsRedoing := AValue;
end;
function TSynEditStringsLinked.GetIsRedoing: Boolean;
begin
Result := fSynStrings.IsRedoing;
end;
procedure TSynEditStringsLinked.SetSynStrings(AValue: TSynEditStrings);
begin
if fSynStrings = AValue then Exit;
fSynStrings := AValue;
if DisplayView <> nil then begin
if fSynStrings = nil
then DisplayView.NextView := nil
else DisplayView.NextView := fSynStrings.DisplayView;
end;
end;
function TSynEditStringsLinked.GetIsUtf8: Boolean;
begin
Result := FSynStrings.IsUtf8;
end;
procedure TSynEditStringsLinked.SetIsUtf8(const AValue: Boolean);
begin
FSynStrings.IsUtf8 := AValue;
end;
function TSynEditStringsLinked.GetTextChangeStamp: int64;
begin
Result := fSynStrings.GetTextChangeStamp;
end;
function TSynEditStringsLinked.GetViewChangeStamp: int64;
begin
Result := fSynStrings.GetViewChangeStamp;
end;
//Ranges
function TSynEditStringsLinked.GetRange(Index: Pointer): TSynManagedStorageMem;
begin
Result:= fSynStrings.Ranges[Index];
end;
procedure TSynEditStringsLinked.PutRange(Index: Pointer; const ARange: TSynManagedStorageMem);
begin
fSynStrings.Ranges[Index] := ARange;
end;
function TSynEditStringsLinked.GetExpandedString(Index: integer): string;
begin
Result:= fSynStrings.GetExpandedString(Index);
end;
function TSynEditStringsLinked.GetLengthOfLongestLine: integer;
begin
Result:= fSynStrings.GetLengthOfLongestLine;
end;
function TSynEditStringsLinked.GetRedoList: TSynEditUndoList;
begin
Result := fSynStrings.GetRedoList;
end;
function TSynEditStringsLinked.GetUndoList: TSynEditUndoList;
begin
Result := fSynStrings.GetUndoList;
end;
function TSynEditStringsLinked.GetCurUndoList: TSynEditUndoList;
begin
Result := fSynStrings.GetCurUndoList;
end;
procedure TSynEditStringsLinked.AddGenericHandler(AReason: TSynEditNotifyReason; AHandler: TMethod);
begin
fSynStrings.AddGenericHandler(AReason, AHandler);
end;
procedure TSynEditStringsLinked.RemoveGenericHandler(AReason: TSynEditNotifyReason; AHandler: TMethod);
begin
fSynStrings.RemoveGenericHandler(AReason, AHandler);
end;
// Count
function TSynEditStringsLinked.GetCount: integer;
begin
Result:= fSynStrings.Count;
end;
function TSynEditStringsLinked.GetCapacity: integer;
begin
Result:= fSynStrings.Capacity;
end;
procedure TSynEditStringsLinked.SetCapacity(NewCapacity: integer);
begin
fSynStrings.Capacity := NewCapacity;
end;
function TSynEditStringsLinked.Get(Index: integer): string;
begin
Result:= fSynStrings.Get(Index);
end;
function TSynEditStringsLinked.GetObject(Index: integer): TObject;
begin
Result:= fSynStrings.GetObject(Index);
end;
procedure TSynEditStringsLinked.Put(Index: integer; const S: string);
begin
fSynStrings.Put(Index, S);
end;
procedure TSynEditStringsLinked.PutObject(Index: integer; AObject: TObject);
begin
fSynStrings.PutObject(Index, AObject);
end;
//function TSynEditStringsLinked.GetPhysicalCharWidths(Line: PChar; LineLen, Index: Integer): TPhysicalCharWidths;
//begin
// Result := fSynStrings.GetPhysicalCharWidths(Line, LineLen, Index);
//end;
procedure TSynEditStringsLinked.SetUpdateState(Updating: Boolean; Sender: TObject);
begin
// Update/check "FSenderUpdateCount" in linked lists too (avoid extra locking/unlocking)
if Updating then
fSynStrings.BeginUpdate(Sender)
else
fSynStrings.EndUpdate(Sender);
end;
procedure TSynEditStringsLinked.DoGetPhysicalCharWidths(Line: PChar;
LineLen, Index: Integer; PWidths: PPhysicalCharWidth);
begin
fSynStrings.DoGetPhysicalCharWidths(Line, LineLen, Index, PWidths);
end;
function TSynEditStringsLinked.GetDisplayView: TLazSynDisplayView;
begin
Result := fSynStrings.GetDisplayView;
end;
procedure TSynEditStringsLinked.EditInsert(LogX, LogY: Integer; AText: String);
begin
fSynStrings.EditInsert(LogX, LogY, AText);
end;
function TSynEditStringsLinked.EditDelete(LogX, LogY, ByteLen: Integer): String;
begin
Result := fSynStrings.EditDelete(LogX, LogY, ByteLen);
end;
function TSynEditStringsLinked.EditReplace(LogX, LogY, ByteLen: Integer;
AText: String): String;
begin
Result:=fSynStrings.EditReplace(LogX, LogY, ByteLen, AText);
end;
procedure TSynEditStringsLinked.EditLineBreak(LogX, LogY: Integer);
begin
fSynStrings.EditLineBreak(LogX, LogY);
end;
procedure TSynEditStringsLinked.EditLineJoin(LogY: Integer;
FillText: String = '');
begin
fSynStrings.EditLineJoin(LogY, FillText);
end;
procedure TSynEditStringsLinked.EditLinesInsert(LogY, ACount: Integer; AText: String = '');
begin
fSynStrings.EditLinesInsert(LogY, ACount, AText);
end;
procedure TSynEditStringsLinked.EditLinesDelete(LogY, ACount: Integer);
begin
fSynStrings.EditLinesDelete(LogY, ACount);
end;
procedure TSynEditStringsLinked.EditUndo(Item: TSynEditUndoItem);
begin
fSynStrings.EditUndo(Item);
end;
procedure TSynEditStringsLinked.EditRedo(Item: TSynEditUndoItem);
begin
fSynStrings.EditRedo(Item);
end;
procedure TSynEditStringsLinked.SendNotification(AReason: TSynEditNotifyReason;
ASender: TSynEditStrings; aIndex, aCount: Integer);
begin
fSynStrings.SendNotification(AReason, ASender, aIndex, aCount);
end;
procedure TSynEditStringsLinked.SendNotification(AReason: TSynEditNotifyReason;
ASender: TSynEditStrings; aIndex, aCount: Integer;
aBytePos: Integer; aLen: Integer; aTxt: String);
begin
fSynStrings.SendNotification(AReason, ASender, aIndex, aCount, aBytePos, aLen, aTxt);
end;
procedure TSynEditStringsLinked.SendNotification(AReason: TSynEditNotifyReason;
ASender: TObject);
begin
fSynStrings.SendNotification(AReason, ASender);
end;
procedure TSynEditStringsLinked.FlushNotificationCache;
begin
fSynStrings.FlushNotificationCache;
end;
function TSynEditStringsLinked.LogicPosAddChars(const ALine: String; ALogicalPos,
ACount: integer; AFlags: LPosFlags): Integer;
begin
Result := fSynStrings.LogicPosAddChars(ALine, ALogicalPos, ACount, AFlags);
end;
function TSynEditStringsLinked.LogicPosIsAtChar(const ALine: String; ALogicalPos: integer;
AFlags: LPosFlags): Boolean;
begin
Result := fSynStrings.LogicPosIsAtChar(ALine, ALogicalPos, AFlags);
end;
function TSynEditStringsLinked.LogicPosAdjustToChar(const ALine: String; ALogicalPos: integer;
AFlags: LPosFlags): Integer;
begin
Result := fSynStrings.LogicPosAdjustToChar(ALine, ALogicalPos, AFlags);
end;
procedure TSynEditStringsLinked.IgnoreSendNotification(AReason: TSynEditNotifyReason;
IncIgnore: Boolean);
begin
fSynStrings.IgnoreSendNotification(AReason, IncIgnore);
end;
function TSynEditStringsLinked.GetIsInEditAction: Boolean;
begin
Result := fSynStrings.GetIsInEditAction;
end;
procedure TSynEditStringsLinked.IncIsInEditAction;
begin
fSynStrings.IncIsInEditAction;
end;
procedure TSynEditStringsLinked.DecIsInEditAction;
begin
fSynStrings.DecIsInEditAction;
end;
end.