{ /*************************************************************************** maskedit.pp ----------- Component Library Code ***************************************************************************/ ***************************************************************************** * * * This file is part of the Lazarus Component Library (LCL) * * * * See the file COPYING.modifiedLGPL.txt, 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. * * * ***************************************************************************** } { ToDo List: - Make the EDBEditError errormessage (SMaskEditNoMatch) a Resource string in LCLStrconsts.pas - Better handling of cut/clear/paste messages Bugs: - If you place a TMaskEdit on a form and at designtime set the mask and leave the text in the control "invalid" (as in: will not validate) and the TMaskEdit is the ActiveControl of the form, then before the form is displayed an exception will be raised, because somehow DoExit is executed (which calls ValidateEdit) A bugreport on this behaviour is in Mantis: #0012877 - The Delphi helpt text says that a '_' in EditMask will insert a blank in the text. However all versions of Delphi up to D2010 treat it as a literal '_' (unless specified in the 3rd field of a multifield EditMask), so I rewrote parts to make it behave like that also. If, in the future, Delphi actually treats '_' as a blank, we'll re-implement it, for that purpose I did not remove the concerning code, but commented it out - UTF8 support for maskcharacters C and c, probably needs major rewrite!! For now we disallow any UTF8 characters: - in KeyPress only Lower ASCII is handled - in SetText, SetEditText, PasteFromClipboard all UTF8 characters in the given string are replaced with '?' in the UTF8ToAscii() function The reason for this is that an UTF8Char is > 1 byte in lenght, and it will seriously screw up the aritmatic of cursor placing, where to put mask-literals etc. (Alowing it will result in floating point erros when you type/delete in the control) Different behaviour than Delphi, but by design (October 2009, BB) - In SetText in Delphi, when MasNoSave is in EditMask, it is possible to set text longer then the mask allowes for. I disallowed that, because it corrupts internal cursor placement etc. - SetEditText is not Delphi compatible. Delphi allows setting any text in the control, leaving the control in an unrecoverable state, where it is impossible to leave the control because the text can never be validated (too short, too long, overwritten maskliterals). The app wil crash as a result of this. I have decided to disallow this: - EditText is truncated, or padded with ClearChar if necessary so that Length(EditText) = Length(FMask) - Restore all MaskLiterals in the text } unit MaskEdit; {$mode objfpc}{$H+} interface uses Classes, SysUtils, strutils, LResources, Forms, Controls, Graphics, Dialogs, ExtCtrls, StdCtrls, LMessages, Clipbrd, LCLType, LCLProc; const { Mask Type } cMask_SpecialChar = '\'; // after this you can set an arbitrary char cMask_UpperCase = '>'; // after this the chars is in upper case cMask_LowerCase = '<'; // after this the chars is in lower case cMask_Letter = 'l'; // only a letter but not necessary cMask_LetterFixed = 'L'; // only a letter cMask_AlphaNum = 'a'; // a char from space and #122 but not necessary cMask_AlphaNumFixed = 'A'; // a char from space and #122 cMask_AllChars = 'c'; // any char #32 - #255 but not necessary (needs fixing for UTF8 characters!!) cMask_AllCharsFixed = 'C'; // any char #32 - #255 (needs fixing for UTF8 characters!!) cMask_Number = '9'; // only a number but not necessary cMask_NumberFixed = '0'; // only a number cMask_NumberPlusMin = '#'; // only a number or + or -, but not necessary cMask_HourSeparator = ':'; // automatically put the hour separator char cMask_DateSeparator = '/'; // automatically but the date separator char { cMask_SpaceOnly = '_'; // automatically put a space //not Delphi compatible } cMask_NoLeadingBlanks = '!'; //Trim leading blanks, otherwise trim trailing blanks from the data {Delphi compatibility: user can change these at runtime} DefaultBlank: Char = '_'; MaskFieldSeparator: Char = ';'; MaskNoSave: Char = '0'; type { Type for mask (internal) } tMaskedType = (Char_Start, Char_Number, Char_NumberFixed, Char_NumberPlusMin, Char_Letter, Char_LetterFixed, Char_LetterUpCase, Char_LetterDownCase, Char_LetterFixedUpCase, Char_LetterFixedDownCase, Char_AlphaNum, Char_AlphaNumFixed, Char_AlphaNumUpCase, Char_AlphaNumDownCase, Char_AlphaNumFixedUpCase, Char_AlphaNumFixedDownCase, Char_All, Char_AllFixed, Char_AllUpCase, Char_AllDownCase, Char_AllFixedUpCase, Char_AllFixedDownCase, {Char_Space, //not Delphi compatible, see notes above } Char_HourSeparator, Char_DateSeparator, Char_Stop); { Exception class } type EDBEditError = class(Exception); const SMaskEditNoMatch = 'The current text does not match the specified mask.'; type TMaskeditTrimType = (metTrimLeft, metTrimRight); { TCustomMaskEdit } { *********************************************************************************************** Please leave in this note until it no longer applies! FOR ANYONE WHO CARES TO FIX/ENHANCE THIS CODE: Since we want total control over anything that is done to the text in the control we have to take into consideration the fact that currently we cannot prevent cutting/pasting/clearing or dragging selected text in the control, these are handled by the OS and text is changed before we can prevent it. Not all widgetsets currently handle the messages for cut/paste/clear. Actually we would like to have a LM_BEFORE_PASTE (etc.) message... If we allow the OS to cut/clear/paste etc. a situation can occur where mask-literals in the control are changed with random chars (and cannot be undone) or text is shorter or larger than the editmask calls for, which again cannot be undone. So, as a horrible hack I decided to only allow changing of the text if we coded this change ourself. This is done by setting the FChangeAllowed field to True before any write action (in SetInherited Text() ). We try to intercept the messages for cut/paste/copy/clear and perform the appropriate actions instead. If this fails, then in TextChanged we check and will see that FChangeAllowed = False and we will undo the changes made. To make this undo possible it is necessary to set FCurrentText every time you set the text in the control! This is achieved in SetInheritedText() only, so please note: !! It is unsafe to make changes to inherited Text unless done so via SetInheritedText() !!! (Bart Broersma, januari 2009) ************************************************************************************************ } TCustomMaskEdit = Class(TCustomEdit) private FRealMask : String; // Real mask inserted FMask : ShortString; // Acrtual internal mask FMaskSave : Boolean; // Save mask as part of the data FTrimType : TMaskEditTrimType; // Trim leading or trailing spaces in GetText FSpaceChar : Char; // Char for space (default '_') FCurrentText : String; // FCurrentText is our backup. See notes above! FTextOnEnter : String; // Text when user enters the control, used for Reset() FCursorPos : Integer; // Current caret position FChangeAllowed: Boolean; // We do not allow text changes by the OS (cut/clear via context menu) FInitialText : String; // Text set in the formdesigner (must not be handled by SetText) FInitialMask : String; // EditMask set in the formdesigner FValidationFailed: Boolean; // Flag used in DoEnter FMaskIsPushed : Boolean; FPushedMask : ShortString; procedure SetMask(Value : String); function GetIsMasked : Boolean; procedure SetSpaceChar(Value : Char); procedure SetCursorPos; procedure SelectNextChar; procedure SelectPrevChar; procedure SelectFirstChar; procedure GotoEnd; procedure JumpToNextDot(Dot: Char); function HasSelection: Boolean; function HasExtSelection: Boolean; procedure GetSel(out _SelStart: Integer; out _SelStop: Integer); procedure SetSel(const _SelStart: Integer; _SelStop: Integer); Function CharToMask(Ch : Char) : tMaskedType; Function MaskToChar(Value : tMaskedType) : Char; Function IsMaskChar(Ch : Char) : Boolean; Function IsLiteral(Ch: Char): Boolean; function TextIsValid(Value: String): Boolean; function CharMatchesMask(const Ch: Char; const Position: Integer): Boolean; function ClearChar(Position : Integer) : Char; procedure SetInheritedText(const Value: String); //See notes above! procedure InsertChar(Ch : Char); Function CanInsertChar(Position : Integer; Var Ch : Char) : Boolean; procedure DeleteSelected; procedure DeleteChars(NextChar : Boolean); protected function DisableMask(const NewText: String): Boolean; function RestoreMask(const NewText: String): Boolean; Function GetText : TCaption; Procedure SetText(Value : TCaption); function GetEditText: string; virtual; procedure SetEditText(const AValue: string); procedure TextChanged; override; procedure SetCharCase(Value: TEditCharCase); function GetCharCase: TEditCharCase; procedure SetMaxLength(Value: Integer); function GetMaxLength: Integer; procedure Loaded; override; procedure LMPasteFromClip(var Message: TLMessage); message LM_PASTE; procedure LMCutToClip(var Message: TLMessage); message LM_CUT; procedure LMClearSel(var Message: TLMessage); message LM_CLEAR; function EditCanModify: Boolean; virtual; procedure Reset; virtual; procedure DoEnter; override; procedure DoExit; override; procedure KeyDown(var Key: Word; Shift: TShiftState); override; procedure KeyPress(var Key: Char); override; procedure MouseUp(Button: TMouseButton; Shift: TShiftState; X, Y: Integer); override; procedure CheckCursor; property EditText: string read GetEditText write SetEditText; property IsMasked: Boolean read GetIsMasked; property SpaceChar: Char read FSpaceChar write SetSpaceChar; property MaxLength: Integer read GetMaxLength write SetMaxLength; property CharCase: TEditCharCase read GetCharCase write SetCharCase; public procedure CutToClipBoard; override; procedure PasteFromClipBoard; override; { Required methods } constructor Create(Aowner : TComponent); override; procedure Clear; procedure ValidateEdit; virtual; property EditMask: string read FRealMask write SetMask; property Text: TCaption read GetText write SetText; end; { TMaskEdit } TMaskEdit = class(TCustomMaskEdit) public property IsMasked; property EditText; published property Align; property Anchors; property AutoSelect; property AutoSize; property BiDiMode; property BorderSpacing; property BorderStyle; property CharCase; property Color; property Constraints; property DragCursor; property DragKind; property DragMode; property Enabled; property Font; property MaxLength; property ParentBiDiMode; property ParentColor; property ParentFont; property ParentShowHint; property PopupMenu; property ReadOnly; property ShowHint; property TabOrder; property TabStop; property Visible; property OnChange; property OnClick; property OnDblClick; property OnDragDrop; property OnDragOver; property OnEditingDone; property OnEndDock; property OnEndDrag; property OnEnter; property OnExit; property OnKeyDown; property OnKeyPress; property OnKeyUp; property OnMouseDown; property OnMouseEnter; property OnMouseLeave; property OnMouseMove; property OnMouseUp; property OnStartDock; property OnStartDrag; property OnUTF8KeyPress; property EditMask; property Text; property SpaceChar; end; procedure Register; implementation //Define this to prevent validation when the control looses focus { $DEFINE MASKEDIT_NOVALIDATEONEXIT} { // For debugging purposes only const MaskCharToChar: array[tMaskedType] of Char = (#0, cMask_Number, cMask_NumberFixed, cMask_NumberPlusMin, cMask_Letter, cMask_LetterFixed, cMask_Letter, cMask_Letter, cMask_LetterFixed, cMask_LetterFixed, cMask_AlphaNum, cMask_AlphaNumFixed, cMask_AlphaNum, cMask_AlphaNum, cMask_AlphaNumFixed, cMask_AlphaNumFixed, cMask_AllChars, cMask_AllCharsFixed, cMask_AllChars, cMask_AllChars, cMask_AllCharsFixed, cMask_AllCharsFixed, (*cMask_SpaceOnly,*) cMask_HourSeparator, cMask_DateSeparator, #0); } const Period = '.'; Comma = ','; function UTF8ToASCII(Value: String): String; //Replace all UTF8 chars (>#127) with '?' //rules based on: http://en.wikipedia.org/wiki/UTF8 //In the case statement I differentiated between legal and illegal UTF8 byte sequences. //Both are skipped, but in later versions we might do different actions on legal //sequences, like replace "e with accent egu" with a plain e instead of a '?' var b: byte; i,len: Integer; begin Result := ''; len := Length(Value); if len = 0 then exit; i := 1; while (i <= len) do begin b := Byte(Value[i]); if (b < $80) then begin Result := Result + Value[i]; end else begin //UTF8Char, 2 or more bytes //replace with '?' Result := Result + '?'; case b of $80..$BF: {just skip and continue after this byte}; //invalid first UTF8Char, only 2nd, 3rd, 4th can be in this range $C0, $C1: begin //illegal 2 byte sequence, just skip and continue after this sequence Inc(i); if (i > len) then exit; //invalid UTF8Char, and out of chars end; $C2..$DF: begin //legal 2 byte sequence, just skip and continue after this sequence Inc(i); if (i > len) then exit; //invalid UTF8Char, and out of chars end; $E0..$EF: begin //legal 3 byte sequence, just skip and continue after this sequence inc(i,2); if (i > len) then Exit; //invalid UTF8 char, and end of string end; $F0..$F4: begin //legal 4 byte sequence, just skip and continue after this sequence Inc(i,3); if (i > len) then Exit; //invalid UTF8 char, and end of string end; $F5..$F7: begin //illegal 4 byte sequence, just skip and continue after this sequence Inc(i,3); if (i > len) then Exit; //invalid UTF8 char, and end of string end; $F8..$FB: begin //illegal 5 byte sequence, just skip and continue after this sequence Inc(i,4); if (i > len) then Exit; //invalid UTF8 char, and end of string end; $FC..$FD: begin //illegal 6 byte sequence, just skip and continue after this sequence Inc(i,5); if (i > len) then Exit; //invalid UTF8 char, and end of string end; $FE..$FF: begin //illegal sequence: not defined by UTF8-specification Exit; //Absolutely illegal, stop processing the string. end; end; //case end; //UTF8Char 2 or more bytes Inc(i); end; //while (i <= len) end; { Component registration procedure } procedure Register; begin RegisterComponents('Additional',[TMaskEdit]); end; // Create object constructor TCustomMaskEdit.Create(Aowner : TComponent); begin Inherited Create(Aowner); FRealMask := ''; FMask := ''; FSpaceChar := '_'; FMaskSave := True; FChangeAllowed := False; FTrimType := metTrimRight; FCurrentText := Inherited Text; FTextOnEnter := Inherited Text; FInitialText := ''; FInitialMask := ''; FValidationFailed := False; FMaskIsPushed := False; FPushedMask := ''; end; // Prepare the real internal Mask procedure TCustomMaskEdit.SetMask(Value : String); Var S : ShortString; I : Integer; InUp, InDown : Boolean; Special : Boolean; begin //Setting Mask while loading has unexpected and unwanted side-effects if (csLoading in ComponentState) then begin FInitialMask := Value; Exit; end; if FRealMask <> Value then begin FRealMask := Value; //Assume no FSpaceChar is defined in new mask, so first set it to DefaultBlank FSpaceChar := DefaultBlank; FValidationFailed := False; FMaskIsPushed := False; FPushedMask := ''; { First see if Mask is multifield and if we can extract a value for FMaskSave and/or FSpaceChar If so, extract and remove from Value (so we know the remaining part of Value _IS_ the mask to be set) A value for FSpaceChar is only valid if also a value for FMaskSave is specified (as by Delphi specifications), so Mask must be at least 4 characters These must be the last 2 or 4 characters of EditMask (and there must not be an escape character in front!) } if (Length(Value) >= 4) and (Value[Length(Value)-1] = MaskFieldSeparator) and (Value[Length(Value)-3] = MaskFieldSeparator) and (Value[Length(Value)-2] <> cMask_SpecialChar) and //Length = 4 is OK (Value = ";1;_" for example), but if Length > 4 there must be no escape charater in front ((Length(Value) = 4) or ((Length(Value) > 4) and (Value[Length(Value)-4] <> cMask_SpecialChar))) then begin FSpaceChar := Value[Length(Value)]; FMaskSave := (Value[Length(Value)-2] <> MaskNosave); System.Delete(Value,Length(Value)-3,4); end //If not both FMaskSave and FSPaceChar are specified, then see if only FMaskSave is specified else if (Length(Value) >= 2) and (Value[Length(Value)-1] = MaskFieldSeparator) and //Length = 2 is OK, but if Length > 2 there must be no escape charater in front ((Length(Value) = 2) or ((Length(Value) > 2) and (Value[Length(Value)-2] <> cMask_SpecialChar))) then begin FMaskSave := (Value[Length(Value)] <> MaskNoSave); //Remove this bit from Mask System.Delete(Value,Length(Value)-1,2); end; // Construct Actual Internal Mask // init FMask := ''; FTrimType := metTrimRight; // Init: No UpCase, No LowerCase, No Special Char InUp := False; InDown := False; Special := False; S := Value; for I := 1 To Length(S) do begin // Must insert a special char if Special then begin FMask := FMask + S[I]; Special := False; end else begin // Check the char to insert case S[I] Of cMask_SpecialChar: Special := True; cMask_UpperCase: begin if (I > 1) and (S[I-1] = cMask_LowerCase) then begin// encountered <>, so no case checking after this InUp := False; InDown := False end else begin InUp := True; InDown := False; end; end; cMask_LowerCase: begin InDown := True; InUp := False; // <> is catched by next cMask_Uppercase end; cMask_Letter: begin if InUp then FMask := FMask + MaskToChar(Char_LetterUpCase) else if InDown then FMask := FMask + MaskToChar(Char_LetterDownCase) else FMask := FMask + MaskToChar(Char_Letter) end; cMask_LetterFixed: begin if InUp then FMask := FMask + MaskToChar(Char_LetterFixedUpCase) else if InDown then FMask := FMask + MaskToChar(Char_LetterFixedDownCase) else FMask := FMask + MaskToChar(Char_LetterFixed) end; cMask_AlphaNum: begin if InUp then FMask := FMask + MaskToChar(Char_AlphaNumUpcase) else if InDown then FMask := FMask + MaskToChar(Char_AlphaNumDownCase) else FMask := FMask + MaskToChar(Char_AlphaNum) end; cMask_AlphaNumFixed: begin if InUp then FMask := FMask + MaskToChar(Char_AlphaNumFixedUpcase) else if InDown then FMask := FMAsk + MaskToChar(Char_AlphaNumFixedDownCase) else FMask := FMask + MaskToChar(Char_AlphaNumFixed) end; cMask_AllChars: begin if InUp then FMask := FMask + MaskToChar(Char_AllUpCase) else if InDown then FMask := FMask + MaskToChar(Char_AllDownCase) else FMask := FMask + MaskToChar(Char_All) end; cMask_AllCharsFixed: begin if InUp then FMask := FMask + MaskToChar(Char_AllFixedUpCase) else if InDown then FMask := FMask + MaskToChar(Char_AllFixedDownCase) else FMask := FMask + MaskToChar(Char_AllFixed) end; cMask_Number: FMask := FMask + MaskToChar(Char_Number); cMask_NumberFixed: FMask := FMask + MaskToChar(Char_NumberFixed); cMask_NumberPlusMin: FMask := FMask + MaskToChar(Char_NumberPlusMin); cMask_HourSeparator: FMask := FMask + MaskToChar(Char_HourSeparator); cMask_DateSeparator: FMask := FMask + MaskToChar(Char_DateSeparator); {cMask_SpaceOnly: FMask := FMask + MaskToChar(Char_Space); //not Delphi compatible, see remarks above} cMask_NoLeadingBlanks: begin FTrimType := metTrimLeft; end; else begin FMask := FMask + S[I]; end; end; end; end; if (Length(FMask) > 0) then SetCharCase(ecNormal); //SetMaxLegth must be before Clear, otherwise Clear uses old MaxLength value! SetMaxLength(Length(FMask)); Clear; FTextOnEnter := inherited Text; end; end; // Return if mask is selected function TCustomMaskEdit.GetIsMasked : Boolean; begin Result := (FMask <> ''); end; // Set the current Space Char procedure TCustomMaskEdit.SetSpaceChar(Value : Char); Var S : ShortString; I : Integer; OldValue: Char; Begin if (Value <> FSpaceChar) And ((Not IsMaskChar(Value)) {or (CharToMask(Value) = Char_Space)}) then begin OldValue := FSpaceChar; FSpaceChar := Value; if isMasked then begin S := Inherited Text; for I := 1 to Length(S) do begin if (S[i] = OldValue) and (not IsLiteral(FMask[i])) then S[i] := FSpaceChar; //also update FTextOnEnter to reflect new SpaceChar! if (FTextOnEnter[i] = OldValue) and (not IsLiteral(FMask[i])) then FTextOnEnter[i] := FSpaceChar; end; FCurrentText := S; SetInheritedText(S); CheckCursor; end; end; End; // Set the cursor position and select the char in the control procedure TCustomMaskEdit.SetCursorPos; begin //no need to do this when in designmode, it actually looks silly if we do if not (csDesigning in ComponentState) then begin if FCursorPos < 0 then FCursorPos := 0 else if FCursorPos > Length(FMask) then FCursorPos := Length(FMask); if FCursorPos + 1 > Length(FMask) then SetSel(FCursorPos, FCursorPos) else SetSel(FCursorPos, FCursorPos + 1); end; end; //Move to next char, skip any mask-literals procedure TCustomMaskEdit.SelectNextChar; begin if (FCursorPos + 1) > Length(FMask) then Exit; Inc(FCursorPos); While (FCursorPos + 1 < Length(FMask)) and (IsLiteral(FMask[FCursorPos + 1])) do begin Inc(FCursorPos); end; if IsLiteral(FMask[FCursorPos + 1]) then Inc(FCursorPos); SetCursorPos; end; //Move to previous char, skip any mask-literals procedure TCustomMaskEdit.SelectPrevChar; var P: LongInt; begin if FCursorPos = 0 then Exit; P := FCursorPos; Dec(FCursorPos); While (FCursorPos > 0) and IsLiteral(FMask[FCursorPos + 1]) do begin Dec(FCursorPos); end; if (FCursorPos = 0) and (P <> 0) and IsLiteral(FMask[FCursorPos + 1]) then FCursorPos := P; SetCursorPos; end; procedure TCustomMaskEdit.SelectFirstChar; begin FCursorPos := 0; SetCursorPos; end; procedure TCustomMaskEdit.GotoEnd; begin FCursorPos := Length(FMask); SetCursorPos; end; //Jump to next period or comma if possible, otherwise do nothing procedure TCustomMaskEdit.JumpToNextDot(Dot: Char); { Jumping occurs only if - Dot must be in the mask - There is a Dot after the current cursorposition - If the mask contains both periods and comma's, only the first one is jumpable - There is no literal after the next dot - The next dot is not the last character in the mask } var HasNextDot, HasCommaAndPeriod, CanJump: Boolean; P, P2: Integer; begin if not (Dot in [Period, Comma]) then Exit; P := PosEx(Dot, FMask, FCursorPos + 1); HasNextDot := P > 0; If (Dot = Period) then begin P2 := Pos(Comma, FMask); HasCommaAndPeriod := HasNextDot and (P2 >0) end else begin P2 := Pos(Period, FMask); HasCommaAndPeriod := HasNextDot and (P2 >0); end; if HasCommaAndPeriod then begin //When mask has both period and comma only the first occurence is jumpable if P2 < P then HasNextDot := False; end; CanJump := HasNextDot and (P < Length(FMask)) and (not IsLiteral(FMask[P+1])); if CanJump then begin FCursorPos := P; SetCursorPos; end; end; function TCustomMaskEdit.HasSelection: Boolean; begin Result := (GetSelLength() > 0); end; //Return True if Selection > 1, this influences the handling of Backspace function TCustomMaskEdit.HasExtSelection: Boolean; begin Result := (GetSelLength() > 1); end; // Get the current selection procedure TCustomMaskEdit.GetSel(out _SelStart: Integer; out _SelStop: Integer); begin _SelStart:= GetSelStart(); _SelStop:= _SelStart + GetSelLength(); end; // Set the current selection procedure TCustomMaskEdit.SetSel(const _SelStart: Integer; _SelStop: Integer); begin //in GTK if SelLength <> 0 then setting SelLength also changes SelStart SetSelLength(0); SetSelStart(_SelStart); SetSelLength(_SelStop - _SelStart); end; // Transform a single char in a MaskType Function TCustomMaskEdit.CharToMask(Ch : Char) : tMaskedType; Begin Result := Char_Start; if (Ord(Ch) > Ord(Char_Start)) and (Ord(Ch) < Ord(Char_Stop) ) then Result := tMaskedType(Ord(Ch)); End; // Trasform a single MaskType into a char Function TCustomMaskEdit.MaskToChar(Value : tMaskedType) : Char; Begin Result := Char(Ord(Value)); End; // Return if the char passed is a valid MaskType char Function TCustomMaskEdit.IsMaskChar(Ch : Char) : Boolean; Begin Result := (CharToMask(Ch) <> Char_Start); End; //Return if the char passed is a literal (so it cannot be altered) function TCustomMaskEdit.IsLiteral(Ch: Char): Boolean; begin Result := (not IsMaskChar(Ch)) or (IsMaskChar(Ch) and (CharToMask(Ch) in [Char_HourSeparator, Char_DateSeparator{, Char_Space}])) end; //Return if Value matches the EditMask function TCustomMaskEdit.TextIsValid(Value: String): Boolean; var i: Integer; begin Result := False; if (Length(Value) <> Length(FMask)) then begin //DebugLn(' Length(Value) = ',DbgS(Length(Value)),' Length(FMask) = ',DbgS(Length(FMask))); Exit; //Actually should never happen?? end; for i := 1 to Length(FMask) do begin if not CharMatchesMask(Value[i], i) then Exit; end; Result := True; end; function TCustomMaskEdit.CharMatchesMask(const Ch: Char; const Position: Integer): Boolean; var Current: tMaskedType; Ok: Boolean; begin Result := False; if (Position < 1) or (Position > Length(FMask)) then Exit; Current := CharToMask(FMask[Position]); case Current Of Char_Number : OK := Ch In ['0'..'9',#32]; Char_NumberFixed : OK := Ch In ['0'..'9']; Char_NumberPlusMin : OK := Ch in ['0'..'9','+','-',#32]; Char_Letter : OK := Ch In ['a'..'z', 'A'..'Z',#32]; Char_LetterFixed : OK := Ch In ['a'..'z', 'A'..'Z']; Char_LetterUpCase : OK := Ch In ['A'..'Z',#32]; Char_LetterDownCase : OK := Ch In ['a'..'z',#32]; Char_LetterFixedUpCase : OK := Ch In ['A'..'Z']; Char_LetterFixedDownCase : OK := Ch In ['a'..'z']; Char_AlphaNum : OK := Ch in ['a'..'z', 'A'..'Z', '0'..'9',#32]; Char_AlphaNumFixed : OK := Ch in ['a'..'z', 'A'..'Z', '0'..'9']; Char_AlphaNumUpCase : OK := Ch in ['A'..'Z', '0'..'9',#32]; Char_AlphaNumDownCase : OK := Ch in ['a'..'z', '0'..'9',#32]; Char_AlphaNumFixedUpCase : OK := Ch in ['A'..'Z', '0'..'9']; Char_AlphaNumFixedDowncase:OK := Ch in ['a'..'z', '0'..'9']; //ToDo: make this UTF8 compatible, for now //limit this to lower ASCII set Char_All : OK := Ch in [#32..#126]; //True; Char_AllFixed : OK := Ch in [#32..#126]; //True; Char_AllUpCase : OK := Ch in [#32..#126]; //True; Char_AllDownCase : OK := Ch in [#32..#126]; //True; Char_AllFixedUpCase : OK := Ch in [#32..#126]; //True; Char_AllFixedDownCase : OK := Ch in [#32..#126]; //True; {Char_Space : OK := Ch in [' ', '_']; //not Delphi compatible, see notes above} Char_HourSeparator : OK := Ch in [DefaultFormatSettings.TimeSeparator]; Char_DateSeparator : OK := Ch in [DefaultFormatSettings.DateSeparator]; else//it's a literal begin OK := (Ch = FMask[Position]); end; end;//case //DebugLn('Position = ',DbgS(Position),' Current = ',MaskCharToChar[Current],' Ch = "',Ch,'" Ok = ',DbgS(Ok)); Result := Ok; end; //Set text in the control with FChangeAllowed flag set appropriately procedure TCustomMaskEdit.SetInheritedText(const Value: String); begin if (Value <> Inherited Text) then begin FChangeAllowed := True; FCurrentText := Value; //protect resetting FChangeAllowed := False against unhandled exceptions in user's //OnChange, otherwise risk leaving the control in an "unsafe" state regarding text changes try Inherited Text := Value; finally FChangeAllowed := False; end;//finally end; end; // Save current mask, then disable mask // This gives developers the possibility to set any text in the control _without_ messing up the control // Wether or not the function succeeds: NewText will be set as the new text of the control // No need to save FMaskSave and FTrimtype, they are only set in SetMask, which sets MaskIsPushed := False function TCustomMaskEdit.DisableMask(const NewText: String): Boolean; begin if IsMasked and (not FMaskIsPushed) then begin FPushedMask := FMask; FMaskIsPushed := True; FMask := ''; SetMaxLength(0); Result := True; end else begin Result := False; end; Text := NewText; end; // Restore a saved mask function TCustomMaskEdit.RestoreMask(const NewText: String): Boolean; begin if FMaskIsPushed and (not IsMasked) then begin FMaskIsPushed := False; SetCharCase(ecNormal); FMask := FPushedMask; FPushedMask := ''; SetMaxLength(Length(FMask)); FTextOnEnter := inherited Text; Result := True; end else begin Result := False; end; Text := NewText; end; // Clear (virtually) a single char in position Position function TCustomMaskEdit.ClearChar(Position : Integer) : Char; begin Result := FMask[Position]; //For Delphi compatibilty, only literals remain, all others will be blanked case CharToMask(FMask[Position]) Of Char_Number : Result := FSpaceChar; Char_NumberFixed : Result := FSpaceChar; //'0'; Char_NumberPlusMin : Result := FSpaceChar; Char_Letter : Result := FSpaceChar; Char_LetterFixed : Result := FSpaceChar; //'a'; Char_LetterUpCase : Result := FSpaceChar; Char_LetterDownCase : Result := FSpaceChar; Char_LetterFixedUpCase : Result := FSpaceChar; //'A'; Char_LetterFixedDownCase : Result := FSpaceChar; //'a'; Char_AlphaNum : Result := FSpaceChar; Char_AlphaNumFixed : Result := FSpaceChar; Char_AlphaNumUpCase : Result := FSpaceChar; Char_AlphaNumDownCase : Result := FSpaceChar; Char_AlphaNumFixedUpcase : Result := FSpaceChar; Char_AlphaNuMFixedDownCase: Result := FSpaceChar; Char_All : Result := FSpaceChar; Char_AllFixed : Result := FSpaceChar; //'0'; Char_AllUpCase : Result := FSpaceChar; Char_AllDownCase : Result := FSpaceChar; Char_AllFixedUpCase : Result := FSpaceChar; //'0'; Char_AllFixedDownCase : Result := FSpaceChar; //'0'; {Char_Space : Result := #32; //FSpaceChar?; //not Delphi compatible, see notes above} Char_HourSeparator : Result := DefaultFormatSettings.TimeSeparator; Char_DateSeparator : Result := DefaultFormatSettings.DateSeparator; end; end; //Insert a single char at the current position of the cursor procedure TCustomMaskEdit.InsertChar(Ch : Char); Var S : ShortString; i, SelectionStart, SelectionStop: Integer; begin if CanInsertChar(FCursorPos + 1, Ch) then begin S := Inherited Text; if HasSelection then begin //replace slection with blank chars //don't do this via DeleteChars(True), since it will do an unneccesary //update of the control and 2 TextChanged's are triggerd for every char we enter GetSel(SelectionStart, SelectionStop); for i := SelectionStart + 1 to SelectionStop do S[i] := ClearChar(i); end; S[FCursorPos + 1] := Ch; SetInheritedText(S); SelectNextChar; end else //If we have a selection > 1 (and cannot insert) then Delete the selected text: Delphi compatibility if HasExtSelection then DeleteSelected; end; Function TCustomMaskEdit.CanInsertChar(Position : Integer; Var Ch : Char) : Boolean; Var Current : tMaskedType; Begin Current := CharToMask(FMask[Position]); Result := False; // If in UpCase convert the input char if (Current = Char_LetterUpCase ) Or (Current = Char_LetterFixedUpCase) Or (Current = Char_AllUpCase ) Or (Current = Char_AllFixedUpCase ) or (Current = Char_AlphaNumUpcase ) or (Current = Char_AlphaNumFixedUpCase) then Ch := UpCase(Ch); // If in LowerCase convert the input char if (Current = Char_LetterDownCase ) Or (Current = Char_LetterFixedDownCase) Or (Current = Char_AllDownCase ) Or (Current = Char_AllFixedDownCase ) or (Current = Char_AlphaNumDownCase ) or (Current = Char_AlphaNumFixedDownCase ) then Ch := LowerCase(Ch); // Check the input (check the valid range) case Current Of Char_Number : Result := Ch In ['0'..'9']; Char_NumberFixed : Result := Ch In ['0'..'9']; Char_NumberPlusMin : Result := Ch in ['0'..'9','+','-']; Char_Letter : Result := Ch In ['a'..'z', 'A'..'Z']; Char_LetterFixed : Result := Ch In ['a'..'z', 'A'..'Z']; Char_LetterUpCase : Result := Ch In ['A'..'Z']; Char_LetterDownCase : Result := Ch In ['a'..'z']; Char_LetterFixedUpCase : Result := Ch In ['A'..'Z']; Char_LetterFixedDownCase : Result := Ch In ['a'..'z']; Char_AlphaNum : Result := Ch in ['a'..'z', 'A'..'Z', '0'..'9']; Char_AlphaNumFixed : Result := Ch in ['a'..'z', 'A'..'Z', '0'..'9']; Char_AlphaNumUpCase : Result := Ch in ['A'..'Z', '0'..'9']; Char_AlphaNumDownCase : Result := Ch in ['a'..'z', '0'..'9']; Char_AlphaNumFixedUpCase : Result := Ch in ['A'..'Z', '0'..'9']; Char_AlphaNumFixedDowncase:Result := Ch in ['a'..'z', '0'..'9']; //ToDo: make this UTF8 compatible, for now //limit this to lower ASCII set Char_All : Result := Ch in [#32..#126]; //True; Char_AllFixed : Result := Ch in [#32..#126]; //True; Char_AllUpCase : Result := Ch in [#32..#126]; //True; Char_AllDownCase : Result := Ch in [#32..#126]; //True; Char_AllFixedUpCase : Result := Ch in [#32..#126]; //True; Char_AllFixedDownCase : Result := Ch in [#32..#126]; //True; {Char_Space : Result := Ch in [' ', '_']; //not Delphi compatible, see notes above} Char_HourSeparator : Result := Ch in [DefaultFormatSettings.TimeSeparator]; Char_DateSeparator : Result := Ch in [DefaultFormatSettings.DateSeparator]; end; end; // Delete selected chars procedure TCustomMaskEdit.DeleteSelected; Var SelectionStart, SelectionStop, I : Integer; S : ShortString; begin if not HasSelection then Exit; GetSel(SelectionStart, SelectionStop); S := Inherited Text; for i := SelectionStart + 1 to SelectionStop do S[i] := ClearChar(i); SetInheritedText(S); SetCursorPos; end; // Delete a single char from position procedure TCustomMaskEdit.DeleteChars(NextChar : Boolean); begin if NextChar then begin//VK_DELETE if HasSelection then DeleteSelected else begin //cannot delete beyond length of string if FCursorPos < Length(FMask) then begin //This will select the appropriate char in the control SetCursorPos; DeleteSelected; end; end; end else begin//VK_BACK //if selected text > 1 char then delete selection if HasExtSelection then DeleteSelected else begin //cannot backspace if we are at beginning of string if FCursorPos > 0 then begin Dec(FCursorPos); //This will select the appropriate char in the control SetCursorPos; //then delete this char DeleteSelected; end; end; end; end; // Get the actual Text Function TCustomMaskEdit.GetText : TCaption; { Replace al FSPaceChars with #32 If FMaskSave = False the do trimming of spaces and remove all maskliterals } var S: String; i: Integer; Begin if not IsMasked then begin Result := InHerited Text; end else begin S := StringReplace(Inherited Text, FSpaceChar, #32, [rfReplaceAll]); //FSpaceChar can be used as a literal in the mask, so put it back for i := 1 to Length(FMask) do begin if IsLiteral(FMask[i]) and (FMask[i] = FSpaceChar) then begin S[i] := FSpaceChar; end; end; if not FMaskSave then begin for i := 1 to Length(FMask) do begin if IsLiteral(FMask[i]) then S[i] := #1; //We know this char can never be in Text, so this is safe end; S := StringReplace(S, #1, '', [rfReplaceAll]); //Trimming only occurs if FMaskSave = False case FTrimType of metTrimLeft : S := TrimLeft(S); metTrimRight: S := TrimRight(S); end;//case end; Result := S; end; End; // Set the actual Text Procedure TCustomMaskEdit.SetText(Value : TCaption); { This tries to mimic Delphi behaviour (D3): - if mask contains no literals text is set, if necessary padded with blanks, LTR or RTL depending on FTrimType - if mask contains literals then we search for matching literals in text and process each "segment" between matching maskliterals, trimming or padding LTR or RTL depending on FTrimType, until there is no more matching maskliteral Some examples to clarify: EditMask Text to be set Result 99 1 1_ !99 1 _1 cc-cc 1-2 1_-2_ !cc-cc 1-2 _1-_2 cc-cc@cc 1-2@3 1_-2_@3_ 12@3 12-__@__ cc-cc@cc 123-456@789 12-45@78 !cc-cc@cc 123-456@789 23-56@89 This feauture seems to be invented for easy use of dates: 99/99/00 23/1/2009 23/1_/20 <- if your locale DateSeparator = '/' !99/99/00 23/1/2009 23/_1/09 <- if your locale DateSeparator = '/' - The resulting text will always have length = length(FMask) - The text that is set, does not need to validate } //Helper functions Function FindNextMaskLiteral(const StartAt: Integer; out FoundAt: Integer; out ALiteral: Char): Boolean; var i: Integer; begin Result := False; for i := StartAt to Length(FMask) do begin if IsLiteral(FMask[i]) then begin FoundAt := i; ALiteral := ClearChar(i); Result := True; Exit; end; end; end; Function FindMatchingLiteral(const Value: String; const ALiteral: Char; out FoundAt: Integer): Boolean; begin FoundAt := Pos(ALiteral, Value); Result := (FoundAt > 0); end; Var S : ShortString; I, J : Integer; mPrevLit, mNextLit : Integer; //Position of Previous and Next lietral in FMask vNextLit : Integer; //Position of next matching literal in Value HasNextLiteral, HasMatchingLiteral, Stop : Boolean; Literal : Char; Sub : String; Begin //Setting Text while loading has unwanted side-effects if (csLoading in ComponentState) then begin FInitialText := Value; Exit; end; if IsMasked then begin if (Value = '') then begin Clear; Exit; end; Value := Utf8ToAscii(Value); //First setup a "blank" string that contains all literals in the mask S := ''; for I := 1 To Length(FMask) do S := S + ClearChar(I); if FMaskSave then begin mPrevLit := 0; Stop := False; HasNextLiteral := FindNextMaskLiteral(mPrevLit+1, mNextLit, Literal); //if FMask starts with a literal, then Value[1] must be that literal if HasNextLiteral and (mNextLit = 1) and (Value[1] <> Literal) then Stop := True; //debugln('HasNextLiteral = ',dbgs(hasnextliteral),', Stop = ',dbgs(stop)); While not Stop do begin if HasNextLiteral then begin HasMatchingLiteral := FindMatchingLiteral(Value, Literal, vNextLit); //debugln('mPrevLit = ',dbgs(mprevlit),' mNextLit = ',dbgs(mnextlit)); //debugln('HasMatchingLiteral = ',dbgs(hasmatchingliteral)); if HasMatchingLiteral then begin //debugln('vNextLit = ',dbgs(vnextlit)); Sub := Copy(Value, 1, vNextLit - 1); //Copy up to, but not including matching literal System.Delete(Value, 1, vNextLit); //Remove this bit from Value (including matching literal) if (Length(Value) = 0) then Stop := True; //debugln('Sub = "',Sub,'", Value = "',Value,'"'); end else begin//HasMatchingLiteral = False Stop := True; Sub := Value; Value := ''; //debugln('Sub = "',Sub,'", Value = "',Value,'"'); end; //fill S between vPrevLit + 1 and vNextLit - 1, LTR or RTL depending on FTrimType if (FTrimType = metTrimRight) then begin j := 1; for i := (mPrevLit + 1) to (mNextLit - 1) do begin if (J > Length(Sub)) then Break; if (Sub[j] = #32) then S[i] := FSpaceChar else S[i] := Sub[j]; Inc(j); end; end else begin//FTrimType = metTrimLeft j := Length(Sub); for i := (mNextLit - 1) downto (mPrevLit + 1) do begin if (j < 1) then Break; if (Sub[j] = #32) then S[i] := FSpaceChar else S[i] := Sub[j]; Dec(j); end; end; //debugln('S = ',S); end else begin//HasNextLiteral = False //debugln('No more MaskLiterals at this point'); //debugln('mPrevLit = ',dbgs(mprevlit)); Stop := True; Sub := Value; Value := ''; //debugln('Sub = "',Sub,'", Value = "',Value,'"'); //fill S from vPrevLit + 1 until end of FMask, LTR or RTL depending on FTrimType if (FTrimType = metTrimRight) then begin j := 1; for i := (mPrevLit + 1) to Length(FMask) do begin //debugln(' i = ',dbgs(i),' j = ',dbgs(j)); if (j > Length(Sub)) then Break; if (Sub[j] = #32) then S[i] := FSpaceChar else S[i] := Sub[j]; //debugln(' Sub[j] = "',Sub[j],'" -> S = ',S); Inc(j); end; end else begin//FTrimType = metTrimLeft j := Length(Sub); for i := Length(FMask) downto (mPrevLit + 1) do begin //debugln(' i = ',dbgs(i),' j = ',dbgs(j)); if (j < 1) then Break; if (Sub[j] = #32) then S[i] := FSpaceChar else S[i] := Sub[j]; //debugln(' Sub[j] = "',Sub[j],'" -> S = ',S); Dec(j); end; end; //debugln('S = ',S); end; //debugln('Stop = ',dbgs(stop)); if not Stop then begin mPrevLit := mNextLit; HasNextLiteral := FindNextMaskLiteral(mPrevLit + 1, mNextLit, Literal); end; end;//while not Stop end//FMaskSave = True else begin//FMaskSave = False if FTrimType = metTrimRight then begin //fill text from left to rigth, skipping MaskLiterals j := 1; for i := 1 to Length(FMask) do begin if not IsLiteral(FMask[i]) then begin if (Value[j] = #32) then S[i] := FSpaceChar else S[i] := Value[j]; Inc(j); if j > Length(Value) then Break; end; end; end else begin //fill text from right to left, skipping MaskLiterals j := Length(Value); for i := Length(FMask) downto 1 do begin if not IsLiteral(FMask[i]) then begin if (Value[j] = #32) then S[i] := FSpaceChar else S[i] := Value[j]; Dec(j); if j < 1 then Break; end; end; end; end;//FMaskSave = False SetInheritedText(S); end//Ismasked else begin//not IsMasked SetInheritedText(Value); end; End; function TCustomMaskEdit.GetEditText: string; begin Result := Inherited Text; end; procedure TCustomMaskEdit.SetEditText(const AValue: string); //Note: This is not Delphi compatible, but by design //Delphi lets you just set EditText of any length, which is extremely dangerous! var S: String; i: Integer; begin if (not IsMasked) then begin Inherited Text := AValue; end else begin //Make sure we don't copy more or less text into the control than FMask allows for S := Copy(UTF8ToAscii(AValue), 1, Length(FMask)); //Restore all MaskLiterals, or we will potentially leave the control //in an unrecoverable state, eventually crashing the app for i := 1 to Length(S) do if IsLiteral(FMask[i]) then S[i] := ClearChar(i); //Pad resulting string with ClearChar if text is too short while Length(S) < Length(FMask) do S := S + ClearChar(Length(S)+1); SetInheritedText(S); end; end; // Respond to Text Changed message procedure TCustomMaskEdit.TextChanged; { Purpose: to avoid messing up the control by - cut/paste/clear via OS context menu (we try to catch these messages and handle them, but this is not garantueed to work) - dragging selected text in the control with the mouse If one of these happens, then the internal logic of cursorpositioning, inserting characters is messed up. So, we simply restore the text from our backup: FCurrenText } begin if (not IsMasked) or FChangeAllowed then begin Inherited TextChanged; end else begin//Undo changes: restore with value of FCurrentText //we do not call inherited TextChanged here, because the following SetInheritedText //will trigger TextChanged with FChangeAllowed = True and inherited TextChanged is called then SetInheritedText(FCurrentText); //Reset cursor to last known position SetCursorPos; end; end; procedure TCustomMaskEdit.SetCharCase(Value: TEditCharCase); begin if IsMasked then begin if (GetCharCase <> ecNormal) then inherited CharCase := ecNormal; end else begin inherited CharCase := Value; end; end; function TCustomMaskEdit.GetCharCase: TEditCharCase; begin Result := inherited CharCase; end; procedure TCustomMaskEdit.SetMaxLength(Value: Integer); begin if IsMasked then begin inherited MaxLength := Length(FMask); end else begin inherited MaxLength := Value; end; end; function TCustomMaskEdit.GetMaxLength: Integer; begin Result := inherited Maxlength; end; procedure TCustomMaskEdit.Loaded; begin inherited Loaded; if (FInitialMask <> '') then SetMask(FInitialMask); if (FInitialText <> '') then SetText(FInitialText); end; // Respond to Paste message procedure TCustomMaskEdit.LMPasteFromClip(var Message: TLMessage); begin if (not IsMasked) or (ReadOnly) then begin Inherited ; Exit; end; //We handle this message ourself Message.Result := 0; PasteFromClipBoard; end; // Respond to Cut message procedure TCustomMaskEdit.LMCutToClip(var Message: TLMessage); begin if not IsMasked then begin inherited; Exit; end; //We handle this message ourself Message.Result := 0; CutToClipBoard; end; // Respond to Clear message procedure TCustomMaskEdit.LMClearSel(var Message: TLMessage); begin //DebugLn('TCustomMaskEdit.LMClearSel'); if not IsMasked then begin inherited; Exit; end; //We handle this message ourself Message.Result := 0; DeleteSelected; end; function TCustomMaskEdit.EditCanModify: Boolean; begin Result := True; end; procedure TCustomMaskEdit.Reset; //Implements an Undo mechanisme from the moment of entering the control begin if IsMasked and (not ReadOnly) then begin SetinheritedText(FTextOnEnter); end; end; //Moved from CMEnter message handler procedure TCustomMaskEdit.DoEnter; begin inherited DoEnter; if isMasked then begin //debugln('TCustomMaskEdit.DoEnter: FValidationFailed = ',DbgS(FValidationFailed)); FCursorPos := GetSelStart; //Only save FTextOnEnter if validation did not fail in last DoExit that occurred if not FValidationFailed then FTextOnEnter := Inherited Text else FValidationFailed := False; Modified := False; if ((FCursorPos = 0) and (IsLiteral(FMask[1]))) then //On entering select first editable char SelectNextChar else SetCursorPos; end; end; procedure TCustomMaskEdit.DoExit; begin //debugln('TCustomMaskEdit.DoExit: FValidationFailed = ',DbgS(FValidationFailed)); //First give OnExit a change to prevent a EDBEditError inherited DoExit; {$IFNDEF MASKEDIT_NOVALIDATEONEXIT} //Do not validate if FValidationFailed, or risk raising an exception while the previous exception was //not handled, resulting in an application crash if IsMasked and (FTextOnEnter <> Inherited Text) and (not FValidationFailed) then begin //assume failure try //debugln('TCustomMaskedit.DoExit: try ValidateEdit'); FValidationFailed := True; ValidateEdit; FValidationFailed := False; finally if FValidationFailed then begin //debugln('TCustomMaskedit.DoExit: Validation failed'); SetFocus; SelectAll; end; end; end; {$ENDIF} end; // Single key down procedure procedure TCustomMaskEdit.KeyDown(var Key: Word; Shift: TShiftState); begin Inherited KeyDown(Key, Shift); // Not masked -> old procedure if not IsMasked then begin Exit; end; FCursorPos := GetSelStart; // shift and arrowkey -> old procedure if (ssShift in Shift) then begin if (Key = VK_LEFT) or (Key = VK_RIGHT) or (Key = VK_HOME) or (Key = VK_END) then begin Exit; end; end; //Escape Key if (Key = VK_ESCAPE) and (Shift = []) then begin Reset; Key := 0; Exit; end; //Handle clipboard and delete/backspace keys if (Key = VK_DELETE) then begin if not ReadOnly then begin if (Shift = [ssShift]) then begin//Cut CutToClipBoard; end else if (Shift = [ssCtrl]) then begin//Clear DeleteSelected; end else if (Shift = []) then begin//Plain Delete //DeleteChars also works if SelLength = 0 DeleteChars(True); end; Key := 0; Exit; end; end; if (Key = VK_BACK) then begin if not ReadOnly then begin if (Shift = [ssCtrl]) then begin//Clear DeleteSelected; end else if (Shift = [ssShift]) then begin CutToClipBoard; end else if (Shift = []) then begin DeleteChars(False); end; Key := 0; Exit; end; end; if (Key = VK_INSERT) then begin//Copy or Paste if (Shift = [ssShift]) then begin//Paste if not ReadOnly then begin PasteFromClipBoard; end; end else if (Shift = [ssCtrl]) then begin//Copy CopyToClipBoard; end; Key := 0; Exit; end; if (Key = VK_C) and (Shift = [ssCtrl]) then begin//Copy CopyToClipBoard; Key := 0; Exit; end; if (Key = VK_X) and (Shift = [ssCtrl]) then begin//Cut if not ReadOnly then begin CutToClipBoard; Key := 0; Exit; end; end; if (Key = VK_V) and (Shift = [ssCtrl]) then begin//Paste if not ReadOnly then begin PasteFromClipBoard; Key := 0; Exit; end; end; // Cursor movement //ATM we handle Ctrl+ArrowKey as if it were just ArrowKey if (Key = VK_LEFT) then begin SelectPrevChar; Key := 0; Exit; end; if (Key = VK_RIGHT) then begin SelectNextChar; Key := 0; Exit; end; if (Key = VK_HOME) then begin SelectFirstChar; Key := 0; Exit; end; if (Key = VK_END) then begin GotoEnd; Key := 0; Exit; end; // Cursor Up/Down -> not valid if (Key = VK_UP) or (Key = VK_DOWN) then begin Key := 0; Exit; end; end; procedure TCustomMaskEdit.KeyPress(var Key: Char); begin inherited KeyPress(Key); if (not IsMasked) or ReadOnly then begin Exit; end; FCursorPos := GetSelStart; //Moved from KeyDown, which would only handle uppercase chars... // Insert a char if (Key In [#32..#255]) then begin if (Key in [Period, Comma]) and not (CanInsertChar(FCursorPos + 1, Key)) then begin//Try to jump to next period or comma, if at all possible JumpToNextDot(Key); end else begin//any other key InsertChar(Key); end; //We really need to "eat" all keys we handle ourselves //(or widgetset will insert char second time) Key:= #0; end; end; //Moved form LMMButtonUp message handler procedure TCustomMaskEdit.MouseUp(Button: TMouseButton; Shift: TShiftState; X, Y: Integer); begin inherited MouseUp(Button, Shift, X, Y); if IsMasked then begin FCursorPos := GetSelStart; if not HasSelection then SetCursorPos; end; end; procedure TCustomMaskEdit.CheckCursor; begin if IsMasked then SetCursorPos; end; procedure TCustomMaskEdit.CutToClipBoard; begin if not IsMasked then begin inherited CutToClipBoard; Exit; end; CopyToClipBoard; DeleteSelected; end; procedure TCustomMaskEdit.PasteFromClipBoard; { Paste only allowed chars, skip literals in the mask e.g. if cliptext = '1234' and mask = '00:00' then result will be '12:34' } var ClipText, S: String; P, i: LongInt; begin if not IsMasked then begin inherited PasteFromClipBoard; Exit; end; if Clipboard.HasFormat(CF_TEXT) then begin ClipText := UTF8ToAscii(ClipBoard.AsText); if (Length(ClipText) > 0) then begin P := FCursorPos + 1; DeleteSelected; S := Inherited Text; i := 1; while (P <= Length(FMask)) do begin //Skip any literal while (P < Length(FMask)) and (IsLiteral(FMask[P])) do Inc(P); //Skip any char in ClipText that cannot be inserted at current position while (i < Length(ClipText)) and (not CanInsertChar(P, ClipText[i])) do Inc(i); if CanInsertChar(P, ClipText[i]) then begin S[P] := ClipText[i]; Inc(P); Inc(i); end else Break; end; SetInheritedText(S); SetCursorPos; end; end; end; // Clear the controll procedure TCustomMaskEdit.Clear; Var S : ShortString; I : Integer; begin if isMasked then begin S := ''; for I := 1 To Length(FMask) do S := S + ClearChar(I); SetinheritedText(S); FCursorPos := 0; SetCursorPos; end else Inherited Clear; end; procedure TCustomMaskEdit.ValidateEdit; var S: String; _MaskSave: Boolean; begin //Only validate if IsMasked if IsMasked then begin { if FMaskSave = False then literal and spaces are trimmed from Text and TextIsValid might wrongly return False We need the text with literals and FSpaceChar translated to #32 } _MaskSave := FMaskSave; FMaskSave := True; S := Text; FMaskSave := _MaskSave; if not TextIsValid(S) then begin SetCursorPos; Raise EDBEditError.Create(SMaskEditNoMatch); end; end; end; end.