{ ********************************************************************* $Id$ Copyright (C) 1997, 1998 Gertjan Schouten This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. 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. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. ********************************************************************* System Utilities For Free Pascal } { NewStr creates a new PString and assigns S to it if length(s) = 0 NewStr returns Nil } function NewStr(const S: string): PString; begin if (S='') then Result:=nil else begin getmem(Result,length(s)+1); if (Result<>nil) then Result^:=s; end; end; { DisposeStr frees the memory occupied by S } procedure DisposeStr(S: PString); begin if S <> Nil then begin Freemem(S,Length(S^)+1); S:=nil; end; end; { AssignStr assigns S to P^ } procedure AssignStr(var P: PString; const S: string); begin P^ := s; end ; { AppendStr appends S to Dest } procedure AppendStr(var Dest: String; const S: string); begin Dest := Dest + S; end ; { UpperCase returns a copy of S where all lowercase characters ( from a to z ) have been converted to uppercase } function UpperCase(const S: string): string; var i: integer; begin result := S; i := Length(S); while i <> 0 do begin if (result[i] in ['a'..'z']) then result[i] := char(byte(result[i]) - 32); Dec(i); end; end; { LowerCase returns a copy of S where all uppercase characters ( from A to Z ) have been converted to lowercase } function LowerCase(const S: string): string; var i: integer; begin result := S; i := Length(result); while i <> 0 do begin if (result[i] in ['A'..'Z']) then result[i] := char(byte(result[i]) + 32); dec(i); end; end; { CompareStr compares S1 and S2, the result is the based on substraction of the ascii values of the characters in S1 and S2 case result S1 < S2 < 0 S1 > S2 > 0 S1 = S2 = 0 } function CompareStr(const S1, S2: string): Integer; var count, count1, count2: integer; begin result := 0; Count1 := Length(S1); Count2 := Length(S2); if Count1>Count2 then Count:=Count2 else Count:=Count1; result := CompareMemRange(Pointer(S1),Pointer(S2), Count); if (result=0) and (Count1<>Count2) then begin if Count1>Count2 then result:=ord(s1[Count+1]) else result:=-ord(s2[Count+1]); end; end; { CompareMemRange returns the result of comparison of Length bytes at P1 and P2 case result P1 < P2 < 0 P1 > P2 > 0 P1 = P2 = 0 } function CompareMemRange(P1, P2: Pointer; Length: cardinal): integer; var i: cardinal; begin i := 0; result := 0; while (result=0) and (I(P2) then While Result and (i S2 > 0 S1 = S2 = 0 } function CompareText(const S1, S2: string): integer; var i, count, count1, count2: integer; Chr1, Chr2: byte; begin result := 0; Count1 := Length(S1); Count2 := Length(S2); if (Count1>Count2) then Count := Count2 else Count := Count1; i := 0; while (result=0) and (i0) or ((S1[0]=#0) or (S2[0]=#0)) end; function AnsiStrIComp(S1, S2: PChar): integer; begin Result:=0; If S1=Nil then begin If S2=Nil Then Exit; result:=-1; exit; end; If S2=Nil then begin Result:=1; exit; end; Repeat Result:=Ord(LowerCaseTable[Ord(S1[0])])-Ord(LowerCaseTable[Ord(S2[0])]); //!! Must be replaced by ansi characters !! Inc(S1); Inc(S2); Until (Result<>0) or ((S1[0]=#0) or (S2[0]=#0)) end; function AnsiStrLComp(S1, S2: PChar; MaxLen: cardinal): integer; Var I : cardinal; begin Result:=0; If MaxLen=0 then exit; If S1=Nil then begin If S2=Nil Then Exit; result:=-1; exit; end; If S2=Nil then begin Result:=1; exit; end; I:=0; Repeat Result:=Ord(S1[0])-Ord(S2[0]); //!! Must be replaced by ansi characters !! Inc(S1); Inc(S2); Inc(I); Until (Result<>0) or ((S1[0]=#0) or (S2[0]=#0)) or (I=MaxLen) end ; function AnsiStrLIComp(S1, S2: PChar; MaxLen: cardinal): integer; Var I : cardinal; begin Result:=0; If MaxLen=0 then exit; If S1=Nil then begin If S2=Nil Then Exit; result:=-1; exit; end; If S2=Nil then begin Result:=1; exit; end; I:=0; Repeat Result:=Ord(LowerCaseTable[Ord(S1[0])])-Ord(LowerCaseTable[Ord(S2[0])]); //!! Must be replaced by ansi characters !! Inc(S1); Inc(S2); Inc(I); Until (Result<>0) or ((S1[0]=#0) or (S2[0]=#0)) or (I=MaxLen) end ; function AnsiStrLower(Str: PChar): PChar; begin result := Str; if Str <> Nil then begin while Str^ <> #0 do begin Str^ := LowerCaseTable[byte(Str^)]; Str := Str + 1; end ; end ; end ; function AnsiStrUpper(Str: PChar): PChar; begin result := Str; if Str <> Nil then begin while Str^ <> #0 do begin Str^ := UpperCaseTable[byte(Str^)]; Str := Str + 1; end ; end ; end ; function AnsiLastChar(const S: string): PChar; begin //!! No multibyte yet, so we return the last one. result:=StrEnd(Pchar(S)); Dec(Result); end ; function AnsiStrLastChar(Str: PChar): PChar; begin //!! No multibyte yet, so we return the last one. result:=StrEnd(Str); Dec(Result); end ; {==============================================================================} { End of Ansi functions } {==============================================================================} { Trim returns a copy of S with blanks characters on the left and right stripped off } Const WhiteSpace = [' ',#10,#13,#9]; function Trim(const S: string): string; var Ofs, Len: integer; begin len := Length(S); while (Len>0) and (S[Len] in WhiteSpace) do dec(Len); Ofs := 1; while (Ofs<=Len) and (S[Ofs] in WhiteSpace) do Inc(Ofs); result := Copy(S, Ofs, 1 + Len - Ofs); end ; { TrimLeft returns a copy of S with all blank characters on the left stripped off } function TrimLeft(const S: string): string; var i,l:integer; begin l := length(s); i := 1; while (i<=l) and (s[i] in whitespace) do inc(i); Result := copy(s, i, l); end ; { TrimRight returns a copy of S with all blank characters on the right stripped off } function TrimRight(const S: string): string; var l:integer; begin l := length(s); while (l>0) and (s[l] in whitespace) do dec(l); result := copy(s,1,l); end ; { QuotedStr returns S quoted left and right and every single quote in S replaced by two quotes } function QuotedStr(const S: string): string; begin result := AnsiQuotedStr(s, ''''); end ; { AnsiQuotedStr returns S quoted left and right by Quote, and every single occurance of Quote replaced by two } function AnsiQuotedStr(const S: string; Quote: char): string; var i, j, count: integer; begin result := '' + Quote; count := length(s); i := 0; j := 0; while i < count do begin i := i + 1; if S[i] = Quote then begin result := result + copy(S, 1 + j, i - j) + Quote; j := i; end ; end ; if i <> j then result := result + copy(S, 1 + j, i - j); result := result + Quote; end ; { AnsiExtractQuotedStr returns a copy of Src with quote characters deleted to the left and right and double occurances of Quote replaced by a single Quote } function AnsiExtractQuotedStr(Const Src: PChar; Quote: Char): string; var i: integer; P, Q: PChar; begin P := Src; if Src^ = Quote then P := P + 1; Q := StrEnd(P); if PChar(Q - 1)^ = Quote then Q := Q - 1; SetLength(result, Q - P); i := 0; while P <> Q do begin i := i + 1; result[i] := P^; if (P^ = Quote) and (PChar(P + 1)^ = Quote) then P := P + 1; P := P + 1; end ; SetLength(result, i); end ; { AdjustLineBreaks returns S with all CR characters not followed by LF replaced with CR/LF } // under Linux all CR characters or CR/LF combinations should be replaced with LF function AdjustLineBreaks(const S: string): string; begin Result:=AdjustLineBreaks(S,DefaultTextLineBreakStyle); end; function AdjustLineBreaks(const S: string; Style: TTextLineBreakStyle): string; var Source,Dest: PChar; DestLen: Integer; I,J,L: Longint; begin Source:=Pointer(S); L:=Length(S); DestLen:=L; I:=1; while (I<=L) do begin case S[i] of #10: if (Style=tlbsCRLF) then Inc(DestLen); #13: if (Style=tlbsCRLF) then if (I 0 then begin result := Ident[1] in ['A'..'Z', 'a'..'z', '_']; i := 1; while (result) and (i < len) do begin i := i + 1; result := result and (Ident[i] in ['A'..'Z', 'a'..'z', '0'..'9', '_']); end ; end ; end ; { IntToStr returns a string representing the value of Value } function IntToStr(Value: integer): string; begin System.Str(Value, result); end ; {$IFNDEF VIRTUALPASCAL} function IntToStr(Value: int64): string; begin System.Str(Value, result); end ; {$ENDIF} function IntToStr(Value: QWord): string; begin System.Str(Value, result); end ; { IntToHex returns a string representing the hexadecimal value of Value } const HexDigits: array[0..15] of char = '0123456789ABCDEF'; function IntToHex(Value: integer; Digits: integer): string; var i: integer; begin SetLength(result, digits); for i := 0 to digits - 1 do begin result[digits - i] := HexDigits[value and 15]; value := value shr 4; end ; while value <> 0 do begin result := HexDigits[value and 15] + result; value := value shr 4; end; end ; {$IFNDEF VIRTUALPASCAL} // overloading function IntToHex(Value: int64; Digits: integer): string; var i: integer; begin SetLength(result, digits); for i := 0 to digits - 1 do begin result[digits - i] := HexDigits[value and 15]; value := value shr 4; end ; while value <> 0 do begin result := HexDigits[value and 15] + result; value := value shr 4; end; end ; {$ENDIF} { StrToInt converts the string S to an integer value, if S does not represent a valid integer value EConvertError is raised } function StrToInt(const S: string): integer; {$IFDEF VIRTUALPASCAL} var Error: longint; {$ELSE} var Error: word; {$ENDIF} begin Val(S, result, Error); if Error <> 0 then raise EConvertError.createfmt(SInValidInteger,[S]); end ; function StrToInt64(const S: string): int64; {$IFDEF VIRTUALPASCAL} var Error: longint; {$ELSE} var Error: word; {$ENDIF} begin Val(S, result, Error); if Error <> 0 then raise EConvertError.createfmt(SInValidInteger,[S]); end ; { StrToIntDef converts the string S to an integer value, Default is returned in case S does not represent a valid integer value } function StrToIntDef(const S: string; Default: integer): integer; {$IFDEF VIRTUALPASCAL} var Error: longint; {$ELSE} var Error: word; {$ENDIF} begin Val(S, result, Error); if Error <> 0 then result := Default; end ; { StrToIntDef converts the string S to an integer value, Default is returned in case S does not represent a valid integer value } function StrToInt64Def(const S: string; Default: int64): int64; {$IFDEF VIRTUALPASCAL} var Error: longint; {$ELSE} var Error: word; {$ENDIF} begin Val(S, result, Error); if Error <> 0 then result := Default; end ; { LoadStr returns the string resource Ident. } function LoadStr(Ident: integer): string; begin result:=''; end ; { FmtLoadStr returns the string resource Ident and formats it accordingly } function FmtLoadStr(Ident: integer; const Args: array of const): string; begin result:=''; end; Const feInvalidFormat = 1; feMissingArgument = 2; feInvalidArgIndex = 3; {$ifdef fmtdebug} Procedure Log (Const S: String); begin Writeln (S); end; {$endif} Procedure DoFormatError (ErrCode : Longint); Var S : String; begin //!! must be changed to contain format string... S:=''; Case ErrCode of feInvalidFormat : raise EConvertError.Createfmt(SInvalidFormat,[s]); feMissingArgument : raise EConvertError.Createfmt(SArgumentMissing,[s]); feInvalidArgIndex : raise EConvertError.Createfmt(SInvalidArgIndex,[s]); end; end; Function Format (Const Fmt : String; const Args : Array of const) : String; Var ChPos,OldPos,ArgPos,DoArg,Len : Longint; Hs,ToAdd : String; Index,Width,Prec : Longint; Left : Boolean; Fchar : char; { ReadFormat reads the format string. It returns the type character in uppercase, and sets index, Width, Prec to their correct values, or -1 if not set. It sets Left to true if left alignment was requested. In case of an error, DoFormatError is called. } Function ReadFormat : Char; Var Value : longint; Procedure ReadInteger; {$IFDEF VIRTUALPASCAL} var Code: longint; {$ELSE} var Code: word; {$ENDIF} begin If Value<>-1 then exit; // Was already read. OldPos:=chPos; While (Chpos<=Len) and (Pos(Fmt[chpos],'1234567890')<>0) do inc(chpos); If Chpos>len then DoFormatError(feInvalidFormat); If Fmt[Chpos]='*' then begin If (Chpos>OldPos) or (ArgPos>High(Args)) or (Args[ArgPos].Vtype<>vtInteger) then DoFormatError(feInvalidFormat); Value:=Args[ArgPos].VInteger; Inc(ArgPos); Inc(chPos); end else begin If (OldPos0 then DoFormatError (feInvalidFormat); end else Value:=-1; end; end; Procedure ReadIndex; begin ReadInteger; If Fmt[ChPos]=':' then begin If Value=-1 then DoFormatError(feMissingArgument); Index:=Value; Value:=-1; Inc(Chpos); end; {$ifdef fmtdebug} Log ('Read index'); {$endif} end; Procedure ReadLeft; begin If Fmt[chpos]='-' then begin left:=True; Inc(chpos); end else Left:=False; {$ifdef fmtdebug} Log ('Read Left'); {$endif} end; Procedure ReadWidth; begin ReadInteger; If Value<>-1 then begin Width:=Value; Value:=-1; end; {$ifdef fmtdebug} Log ('Read width'); {$endif} end; Procedure ReadPrec; begin If Fmt[chpos]='.' then begin inc(chpos); ReadInteger; If Value=-1 then Value:=0; prec:=Value; end; {$ifdef fmtdebug} Log ('Read precision'); {$endif} end; begin {$ifdef fmtdebug} Log ('Start format'); {$endif} Index:=-1; Width:=-1; Prec:=-1; Value:=-1; inc(chpos); If Fmt[Chpos]='%' then begin Result:='%'; exit; // VP fix end; ReadIndex; ReadLeft; ReadWidth; ReadPrec; ReadFormat:=Upcase(Fmt[ChPos]); {$ifdef fmtdebug} Log ('End format'); {$endif} end; {$ifdef fmtdebug} Procedure DumpFormat (C : char); begin Write ('Fmt : ',fmt:10); Write (' Index : ',Index:3); Write (' Left : ',left:5); Write (' Width : ',Width:3); Write (' Prec : ',prec:3); Writeln (' Type : ',C); end; {$endif} function Checkarg (AT : Longint;err:boolean):boolean; { Check if argument INDEX is of correct type (AT) If Index=-1, ArgPos is used, and argpos is augmented with 1 DoArg is set to the argument that must be used. } begin result:=false; if Index=-1 then DoArg:=Argpos else DoArg:=Index; ArgPos:=DoArg+1; If (Doarg>High(Args)) or (Args[Doarg].Vtype<>AT) then begin if err then DoFormatError(feInvalidArgindex); dec(ArgPos); exit; end; result:=true; end; Const Zero = '000000000000000000000000000000000000000000000000000000000000000'; begin Result:=''; Len:=Length(Fmt); Chpos:=1; OldPos:=1; ArgPos:=0; While chpos<=len do begin While (ChPos<=Len) and (Fmt[chpos]<>'%') do inc(chpos); If ChPos>OldPos Then Result:=Result+Copy(Fmt,OldPos,Chpos-Oldpos); If ChPos'-' then ToAdd:=StringOfChar('0',Index)+ToAdd else // + 1 to accomodate for - sign in length !! Insert(StringOfChar('0',Index+1),toadd,2); end; 'E' : begin CheckArg(vtExtended,true); ToAdd:=FloatToStrF(Args[doarg].VExtended^,ffexponent,Prec,3); end; 'F' : begin CheckArg(vtExtended,true); ToAdd:=FloatToStrF(Args[doarg].VExtended^,ffFixed,9999,Prec); end; 'G' : begin CheckArg(vtExtended,true); ToAdd:=FloatToStrF(Args[doarg].VExtended^,ffGeneral,Prec,3); end; 'N' : begin CheckArg(vtExtended,true); ToAdd:=FloatToStrF(Args[doarg].VExtended^,ffNumber,9999,Prec); end; 'M' : begin CheckArg(vtExtended,true); ToAdd:=FloatToStrF(Args[doarg].VExtended^,ffCurrency,9999,Prec); end; 'S' : begin if CheckArg(vtString,false) then hs:=Args[doarg].VString^ else if CheckArg(vtChar,false) then hs:=Args[doarg].VChar else if CheckArg(vtPChar,false) then hs:=Args[doarg].VPChar else if CheckArg(vtPWideChar,false) then hs:=char(Args[doarg].VPWideChar^) else if CheckArg(vtWideChar,false) then hs:=char(Args[doarg].VWideChar) else if CheckArg(vtWidestring,false) then hs:=ansistring(Args[doarg].VWideString) else if CheckArg(vtAnsiString,true) then hs:=ansistring(Args[doarg].VAnsiString); Index:=Length(hs); If (Prec<>-1) and (Index>Prec) then Index:=Prec; ToAdd:=Copy(hs,1,Index); end; 'P' : Begin CheckArg(vtpointer,true); ToAdd:=HexStr(ptrint(Args[DoArg].VPointer),sizeof(Ptrint)*2); // Insert ':'. Is this needed in 32 bit ? No it isn't. // Insert(':',ToAdd,5); end; 'X' : begin Checkarg(vtinteger,true); If Prec>15 then ToAdd:=HexStr(Args[Doarg].VInteger,15) else begin // determine minimum needed number of hex digits. Index:=1; While (DWord(1 shl (Index*4))<=DWord(Args[DoArg].VInteger)) and (index<8) do inc(Index); If Index>Prec then Prec:=Index; ToAdd:=HexStr(Args[DoArg].VInteger,Prec); end; end; '%': ToAdd:='%'; end; If Width<>-1 then If Length(ToAdd) 0 then Move(fmt,F[1],fmtlen); S:=Format (F,Args); If Cardinal(Length(S))0) Then S[P] := '.'; Val(S,Value,E); Result:=(E=0); End; Function TextToFloat(Buffer: PChar; Var Value; ValueType: TFloatValue): Boolean; Var E,P : Integer; S : String; C : Currency; Ext : Extended; Begin S:=StrPas(Buffer); P:=Pos(DecimalSeparator,S); If (P<>0) Then S[P] := '.'; case ValueType of fvCurrency: Val(S,Currency(Value),E); fvExtended: Val(S,Extended(Value),E); fvDouble: Val(S,Double(Value),E); fvSingle: Val(S,Single(Value),E); fvComp: Val(S,Comp(Value),E); fvReal: Val(S,Real(Value),E); end; Result:=(E=0); End; Function FloatToStr(Value: Extended): String; Begin Result := FloatToStrF(Value, ffGeneral, 15, 0); End; Function FloatToText(Buffer: PChar; Value: Extended; format: TFloatFormat; Precision, Digits: Integer): Longint; Var Tmp: String[40]; Begin Tmp := FloatToStrF(Value, format, Precision, Digits); Result := Length(Tmp); Move(Tmp[1], Buffer[0], Result); End; Function FloatToStrF(Value: Extended; format: TFloatFormat; Precision, Digits: Integer): String; Var P: Integer; Negative, TooSmall, TooLarge: Boolean; Begin Case format Of ffGeneral: Begin If (Precision = -1) Or (Precision > 15) Then Precision := 15; TooSmall := (Abs(Value) < 0.00001) and (Value>0.0); If Not TooSmall Then Begin Str(Value:0:999, Result); P := Pos('.', Result); Result[P] := DecimalSeparator; TooLarge := P > Precision + 1; End; If TooSmall Or TooLarge Then begin Result := FloatToStrF(Value, ffExponent, Precision, Digits); // Strip unneeded zeroes. P:=Pos('E',result)-1; If P<>-1 then While (P>1) and (Result[P]='0') do begin system.Delete(Result,P,1); Dec(P); end; end else begin P := Length(Result); While Result[P] = '0' Do Dec(P); If Result[P] = DecimalSeparator Then Dec(P); SetLength(Result, P); end; End; ffExponent: Begin If (Precision = -1) Or (Precision > 15) Then Precision := 15; Str(Value:Precision + 8, Result); Result[3] := DecimalSeparator; P:=4; While (P>0) and (Digits < P) And (Result[Precision + 5] = '0') do Begin If P<>1 then system.Delete(Result, Precision + 5, 1) else system.Delete(Result, Precision + 3, 3); Dec(P); end; If Result[1] = ' ' Then System.Delete(Result, 1, 1); End; ffFixed: Begin If Digits = -1 Then Digits := 2 Else If Digits > 15 Then Digits := 15; Str(Value:0:Digits, Result); If Result[1] = ' ' Then System.Delete(Result, 1, 1); P := Pos('.', Result); If P <> 0 Then Result[P] := DecimalSeparator; End; ffNumber: Begin If Digits = -1 Then Digits := 2 Else If Digits > 15 Then Digits := 15; Str(Value:0:Digits, Result); If Result[1] = ' ' Then System.Delete(Result, 1, 1); P := Pos('.', Result); If P <> 0 Then Result[P] := DecimalSeparator else P := Length(Result)+1; Dec(P, 3); While (P > 1) Do Begin If Result[P - 1] <> '-' Then Insert(ThousandSeparator, Result, P); Dec(P, 3); End; End; ffCurrency: Begin If Value < 0 Then Begin Negative := True; Value := -Value; End Else Negative := False; If Digits = -1 Then Digits := CurrencyDecimals Else If Digits > 18 Then Digits := 18; Str(Value:0:Digits, Result); If Result[1] = ' ' Then System.Delete(Result, 1, 1); P := Pos('.', Result); If P <> 0 Then Result[P] := DecimalSeparator; Dec(P, 3); While (P > 1) Do Begin Insert(ThousandSeparator, Result, P); Dec(P, 3); End; If Not Negative Then Begin Case CurrencyFormat Of 0: Result := CurrencyString + Result; 1: Result := Result + CurrencyString; 2: Result := CurrencyString + ' ' + Result; 3: Result := Result + ' ' + CurrencyString; End End Else Begin Case NegCurrFormat Of 0: Result := '(' + CurrencyString + Result + ')'; 1: Result := '-' + CurrencyString + Result; 2: Result := CurrencyString + '-' + Result; 3: Result := CurrencyString + Result + '-'; 4: Result := '(' + Result + CurrencyString + ')'; 5: Result := '-' + Result + CurrencyString; 6: Result := Result + '-' + CurrencyString; 7: Result := Result + CurrencyString + '-'; 8: Result := '-' + Result + ' ' + CurrencyString; 9: Result := '-' + CurrencyString + ' ' + Result; 10: Result := CurrencyString + ' ' + Result + '-'; End; End; End; End; End; Function FloatToDateTime (Const Value : Extended) : TDateTime; begin If (ValueMaxDateTime) then Raise EConvertError.CreateFmt (SInvalidDateTime,[Value]); Result:=Value; end; Function FloatToCurr (Const Value : Extended) : Currency; begin end; Function CurrToStr(Value: Currency): string; begin end; function StrToCurr(const S: string): Currency; begin end; function StrToBool(const S: string): Boolean; Var Temp : String; D : Double; {$IFDEF VIRTUALPASCAL} Code: longint; {$ELSE} Code: word; {$ENDIF} begin Temp:=upcase(S); Val(temp,D,code); If Code=0 then Result:=(D<>0.0) else If Temp='TRUE' then result:=true else if Temp='FALSE' then result:=false else Raise EConvertError.CreateFmt(SInvalidBoolean,[S]); end; function BoolToStr(B: Boolean): string; begin If B then Result:='TRUE' else Result:='FALSE'; end; Function FloatToTextFmt(Buffer: PChar; Value: Extended; format: PChar): Integer; Var Digits: String[40]; { String Of Digits } Exponent: String[8]; { Exponent strin } FmtStart, FmtStop: PChar; { Start And End Of relevant part } { Of format String } ExpFmt, ExpSize: Integer; { Type And Length Of } { exponential format chosen } Placehold: Array[1..4] Of Integer; { Number Of placeholders In All } { four Sections } thousand: Boolean; { thousand separators? } UnexpectedDigits: Integer; { Number Of unexpected Digits that } { have To be inserted before the } { First placeholder. } DigitExponent: Integer; { Exponent Of First digit In } { Digits Array. } { Find end of format section starting at P. False, if empty } Function GetSectionEnd(Var P: PChar): Boolean; Var C: Char; SQ, DQ: Boolean; Begin Result := False; SQ := False; DQ := False; C := P[0]; While (C<>#0) And ((C<>';') Or SQ Or DQ) Do Begin Result := True; Case C Of #34: If Not SQ Then DQ := Not DQ; #39: If Not DQ Then SQ := Not SQ; End; Inc(P); C := P[0]; End; End; { Find start and end of format section to apply. If section doesn't exist, use section 1. If section 2 is used, the sign of value is ignored. } Procedure GetSectionRange(section: Integer); Var Sec: Array[1..3] Of PChar; SecOk: Array[1..3] Of Boolean; Begin Sec[1] := format; SecOk[1] := GetSectionEnd(Sec[1]); If section > 1 Then Begin Sec[2] := Sec[1]; If Sec[2][0] <> #0 Then Inc(Sec[2]); SecOk[2] := GetSectionEnd(Sec[2]); If section > 2 Then Begin Sec[3] := Sec[2]; If Sec[3][0] <> #0 Then Inc(Sec[3]); SecOk[3] := GetSectionEnd(Sec[3]); End; End; If Not SecOk[1] Then FmtStart := Nil Else Begin If Not SecOk[section] Then section := 1 Else If section = 2 Then Value := -Value; { Remove sign } If section = 1 Then FmtStart := format Else Begin FmtStart := Sec[section - 1]; Inc(FmtStart); End; FmtStop := Sec[section]; End; End; { Find format section ranging from FmtStart to FmtStop. } Procedure GetFormatOptions; Var Fmt: PChar; SQ, DQ: Boolean; area: Integer; Begin SQ := False; DQ := False; Fmt := FmtStart; ExpFmt := 0; area := 1; thousand := False; Placehold[1] := 0; Placehold[2] := 0; Placehold[3] := 0; Placehold[4] := 0; While Fmt < FmtStop Do Begin Case Fmt[0] Of #34: Begin If Not SQ Then DQ := Not DQ; Inc(Fmt); End; #39: Begin If Not DQ Then SQ := Not SQ; Inc(Fmt); End; Else { This was 'if not SQ or DQ'. Looked wrong... } If Not SQ Or DQ Then Begin Case Fmt[0] Of '0': Begin Case area Of 1: area := 2; 4: Begin area := 3; Inc(Placehold[3], Placehold[4]); Placehold[4] := 0; End; End; Inc(Placehold[area]); Inc(Fmt); End; '#': Begin If area=3 Then area:=4; Inc(Placehold[area]); Inc(Fmt); End; '.': Begin If area<3 Then area:=3; Inc(Fmt); End; ',': Begin thousand := True; Inc(Fmt); End; 'e', 'E': If ExpFmt = 0 Then Begin If (Fmt[0]='E') Then ExpFmt:=1 Else ExpFmt := 3; Inc(Fmt); If (Fmt 0 Then Begin Inc(Fmt); ExpSize := 0; While (FmtJ) And (Digits[I]='0') Do Begin Digits[I] := ' '; Dec(I); End; { If integer value and no obligatory decimal places, remove decimal point. } If (DecimalPoint < len) And (Digits[DecimalPoint + 1] = ' ') Then Digits[DecimalPoint] := ' '; { Convert spaces left from obligatory decimal point to zeroes. } I:=DecimalPoint-Placehold[2]; While (I Digits With Decimals And adjusted Exponent. } If Placehold[1]+Placehold[2]=0 Then Placehold[1]:=1; Decimals := Placehold[3] + Placehold[4]; Width:=Placehold[1]+Placehold[2]+Decimals; Str(Value:Width+8,Digits); { Find and cut out exponent. Always the last 6 characters in the string. -> 0000E+0000 } I:=Length(Digits)-5; Val(Copy(Digits,I+1,5),Exp,J); Exp:=Exp+1-(Placehold[1]+Placehold[2]); Delete(Digits, I, 6); { Str() always returns at least one digit after the decimal point. If we don't want it, we have to remove it. } If (Decimals=0) And (Placehold[1]+Placehold[2]<= 1) Then Begin If (Digits[4]>='5') Then Begin Inc(Digits[2]); If (Digits[2]>'9') Then Begin Digits[2] := '1'; Inc(Exp); End; End; Delete(Digits, 3, 2); DecimalPoint := Length(Digits) + 1; End Else Begin { Move decimal point at the desired position } Delete(Digits, 3, 1); DecimalPoint:=2+Placehold[1]+Placehold[2]; If (Decimals<>0) Then Insert('.',Digits,DecimalPoint); End; { Convert optional zeroes to spaces. } I := Length(Digits); J := DecimalPoint + Placehold[3]; While (I > J) And (Digits[I] = '0') Do Begin Digits[I] := ' '; Dec(I); End; { If integer number and no obligatory decimal paces, remove decimal point } If (DecimalPoint= 0 Then Begin If (ExpFmt In [1,3]) Then Insert('+', Exponent, 1); End Else Insert('-',Exponent,1); If (ExpFmt<3) Then Insert('E',Exponent,1) Else Insert('e',Exponent,1); End; DigitExponent:=DecimalPoint-2; If (Digits[1]='-') Then Dec(DigitExponent); UnexpectedDigits:=DecimalPoint-1-(Placehold[1]+Placehold[2]); End; Function PutResult: LongInt; Var SQ, DQ: Boolean; Fmt, Buf: PChar; Dig, N: Integer; Begin SQ := False; DQ := False; Fmt := FmtStart; Buf := Buffer; Dig := 1; While (Fmt0) Then Begin { Everything unexpected is written before the first digit } For N := 1 To UnexpectedDigits Do Begin Buf[0] := Digits[N]; Inc(Buf); If thousand And (Digits[N]<>'-') Then Begin If (DigitExponent Mod 3 = 0) And (DigitExponent>0) Then Begin Buf[0] := ThousandSeparator; Inc(Buf); End; Dec(DigitExponent); End; End; Inc(Dig, UnexpectedDigits); End; If (Digits[Dig]<>' ') Then Begin If (Digits[Dig]='.') Then Buf[0] := DecimalSeparator Else Buf[0] := Digits[Dig]; Inc(Buf); If thousand And (DigitExponent Mod 3 = 0) And (DigitExponent > 0) Then Begin Buf[0] := ThousandSeparator; Inc(Buf); End; End; Inc(Dig); Dec(DigitExponent); Inc(Fmt); End; 'e', 'E': Begin If ExpFmt <> 0 Then Begin Inc(Fmt); If Fmt < FmtStop Then Begin If Fmt[0] In ['+', '-'] Then Begin Inc(Fmt, ExpSize); For N:=1 To Length(Exponent) Do Buf[N-1] := Exponent[N]; Inc(Buf,Length(Exponent)); ExpFmt:=0; End; Inc(Fmt); End; End Else Begin { No legal exponential format. Simply write the 'E' to the result. } Buf[0] := Fmt[0]; Inc(Buf); Inc(Fmt); End; End; Else { Case } { Usual character } If (Fmt[0]<>',') Then Begin Buf[0] := Fmt[0]; Inc(Buf); End; Inc(Fmt); End; { Case } End Else { IF } Begin { Character inside single or double quotes } Buf[0] := Fmt[0]; Inc(Buf); Inc(Fmt); End; End; { Case } End; { While .. Begin } Result:=PtrInt(Buf)-PtrInt(Buffer); End; Begin If (Value>0) Then GetSectionRange(1) Else If (Value<0) Then GetSectionRange(2) Else GetSectionRange(3); If FmtStart = Nil Then Begin Result := FloatToText(Buffer, Value, ffGeneral, 15, 4); End Else Begin GetFormatOptions; If (ExpFmt = 0) And (Abs(Value) >= 1E18) Then Result := FloatToText(Buffer, Value, ffGeneral, 15, 4) Else Begin FloatToStr; Result := PutResult; End; End; End; Procedure FloatToDecimal(Var Result: TFloatRec; Value: Extended; Precision, Decimals : integer); Var Buffer: String[24]; Error, N: Integer; Begin Str(Value:23, Buffer); Result.Negative := (Buffer[1] = '-'); Val(Copy(Buffer, 19, 5), Result.Exponent, Error); Inc(Result. Exponent); Result.Digits[0] := Buffer[2]; Move(Buffer[4], Result.Digits[1], 14); If Decimals + Result.Exponent < Precision Then N := Decimals + Result.Exponent Else N := Precision; If N > 15 Then N := 15; If N = 0 Then Begin If Result.Digits[0] >= '5' Then Begin Result.Digits[0] := '1'; Result.Digits[1] := #0; Inc(Result.Exponent); End Else Result.Digits[0] := #0; End Else If N > 0 Then Begin If Result.Digits[N] >= '5' Then Begin Repeat Result.Digits[N] := #0; Dec(N); Inc(Result.Digits[N]); Until (N = 0) Or (Result.Digits[N] < ':'); If Result.Digits[0] = ':' Then Begin Result.Digits[0] := '1'; Inc(Result.Exponent); End; End Else Begin Result.Digits[N] := '0'; While (Result.Digits[N] = '0') And (N > -1) Do Begin Result.Digits[N] := #0; Dec(N); End; End; End Else Result.Digits[0] := #0; If Result.Digits[0] = #0 Then Begin Result.Exponent := 0; Result.Negative := False; End; End; Function FormatFloat(Const format: String; Value: Extended): String; Var Temp: ShortString; buf : Array[0..1024] of char; Begin Buf[FloatToTextFmt(@Buf[0],Value,Pchar(Format))]:=#0; Result:=StrPas(@Buf); End; {==============================================================================} { extra functions } {==============================================================================} { LeftStr returns Count left-most characters from S } function LeftStr(const S: string; Count: integer): string; begin result := Copy(S, 1, Count); end ; { RightStr returns Count right-most characters from S } function RightStr(const S: string; Count: integer): string; begin If Count>Length(S) then Count:=Length(S); result := Copy(S, 1 + Length(S) - Count, Count); end; { BCDToInt converts the BCD value Value to an integer } function BCDToInt(Value: integer): integer; var i, j: integer; begin result := 0; j := 1; for i := 0 to SizeOf(Value) shr 1 - 1 do begin result := result + j * (Value and 15); j := j * 10; Value := Value shr 4; end ; end ; Function LastDelimiter(const Delimiters, S: string): Integer; begin Result:=Length(S); While (Result>0) and (Pos(S[Result],Delimiters)=0) do Dec(Result); end; Function StringReplace(const S, OldPattern, NewPattern: string; Flags: TReplaceFlags): string; var Srch,OldP,RemS: string; // Srch and Oldp can contain uppercase versions of S,OldPattern P : Integer; begin Srch:=S; OldP:=OldPattern; if rfIgnoreCase in Flags then begin Srch:=UpperCase(Srch); OldP:=UpperCase(OldP); end; RemS:=S; Result:=''; while (Length(Srch)<>0) do begin P:=Pos(OldP, Srch); if P=0 then begin Result:=Result+RemS; Srch:=''; end else begin Result:=Result+Copy(RemS,1,P-1)+NewPattern; P:=P+Length(OldP); RemS:=Copy(RemS,P,Length(RemS)-P+1); if not (rfReplaceAll in Flags) then begin Result:=Result+RemS; Srch:=''; end else Srch:=Copy(Srch,P,Length(Srch)-P+1); end; end; end; Function IsDelimiter(const Delimiters, S: string; Index: Integer): Boolean; begin Result:=False; If Index<=Length(S) then Result:=Pos(S[Index],Delimiters)<>0; // Note we don't do MBCS yet end; Function ByteToCharLen(const S: string; MaxLen: Integer): Integer; begin Result:=Length(S); If Result>MaxLen then Result:=MaxLen; end; Function ByteToCharIndex(const S: string; Index: Integer): Integer; begin Result:=Index; end; Function CharToByteLen(const S: string; MaxLen: Integer): Integer; begin Result:=Length(S); If Result>MaxLen then Result:=MaxLen; end; Function CharToByteIndex(const S: string; Index: Integer): Integer; begin Result:=Index; end; Function ByteType(const S: string; Index: Integer): TMbcsByteType; begin Result:=mbSingleByte; end; Function StrByteType(Str: PChar; Index: Cardinal): TMbcsByteType; begin Result:=mbSingleByte; end; Function FindCmdLineSwitch(const Switch: string; const Chars: TSysCharSet;IgnoreCase: Boolean): Boolean; Var I,L : Integer; S,T : String; begin Result:=False; S:=Switch; If IgnoreCase then S:=UpperCase(S); I:=ParamCount; While (Not Result) and (I>0) do begin L:=Length(Paramstr(I)); If (L>0) and (ParamStr(I)[1] in Chars) then begin T:=Copy(ParamStr(I),2,L-1); If IgnoreCase then T:=UpperCase(T); Result:=S=T; end; Dec(i); end; end; Function FindCmdLineSwitch(const Switch: string; IgnoreCase: Boolean): Boolean; begin Result:=FindCmdLineSwitch(Switch,SwitchChars,IgnoreCase); end; Function FindCmdLineSwitch(const Switch: string): Boolean; begin Result:=FindCmdLineSwitch(Switch,SwitchChars,False); end; { Case Translation Tables Can be used in internationalization support. Although these tables can be obtained through system calls it is better to not use those, since most implementation are not 100% WARNING: before modifying a translation table make sure that the current codepage of the OS corresponds to the one you make changes to } const { upper case translation table for character set 850 } CP850UCT: array[128..255] of char = ('', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', 'Y', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', ''); { lower case translation table for character set 850 } CP850LCT: array[128..255] of char = ('', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', '', ''); { upper case translation table for character set ISO 8859/1 Latin 1 } CPISO88591UCT: array[192..255] of char = ( #192, #193, #194, #195, #196, #197, #198, #199, #200, #201, #202, #203, #204, #205, #206, #207, #208, #209, #210, #211, #212, #213, #214, #215, #216, #217, #218, #219, #220, #221, #222, #223, #192, #193, #194, #195, #196, #197, #198, #199, #200, #201, #202, #203, #204, #205, #206, #207, #208, #209, #210, #211, #212, #213, #214, #247, #216, #217, #218, #219, #220, #221, #222, #89 ); { lower case translation table for character set ISO 8859/1 Latin 1 } CPISO88591LCT: array[192..255] of char = ( #224, #225, #226, #227, #228, #229, #230, #231, #232, #233, #234, #235, #236, #237, #238, #239, #240, #241, #242, #243, #244, #245, #246, #215, #248, #249, #250, #251, #252, #253, #254, #223, #224, #225, #226, #227, #228, #229, #230, #231, #232, #233, #234, #235, #236, #237, #238, #239, #240, #241, #242, #243, #244, #245, #246, #247, #248, #249, #250, #251, #252, #253, #254, #255 ); { $Log$ Revision 1.10 2004-04-28 20:48:20 peter * ordinal-pointer conversions fixed Revision 1.9 2004/02/26 08:46:21 michael + Added AnsiSameStr Revision 1.8 2003/11/26 22:17:42 michael + Merged fixbranch fixes, missing in main branch Revision 1.7 2003/11/22 17:18:53 marco * johill patch applied Revision 1.6 2003/11/22 16:17:26 michael + Small optimization in comparemem Revision 1.5 2003/11/22 15:46:48 michael + Patched CompareMem for case when length is 0 Revision 1.4 2003/11/09 13:37:42 michael + Position specifier in format string affects all later specifiers Revision 1.3 2003/11/03 09:42:28 marco * Peter's Cardinal<->Longint fixes patch Revision 1.2 2003/10/07 12:02:47 marco * sametext and ansisametext added. (simple (ansi)comparetext wrappers) Revision 1.1 2003/10/06 21:01:06 peter * moved classes unit to rtl Revision 1.26 2003/09/06 21:22:07 marco * More objpas fixes Revision 1.25 2002/12/23 23:26:08 florian + addition to previous commit, forgot to save in the editor Revision 1.23 2002/11/28 22:26:30 michael + Fixed float<>string conversion routines Revision 1.22 2002/11/28 20:29:26 michael + made it compile again Revision 1.21 2002/11/28 20:15:37 michael + Fixed comparestr (merge from fix) Revision 1.20 2002/09/15 17:50:35 peter * Fixed AnsiStrComp crashes Revision 1.1.2.16 2002/11/28 22:25:01 michael + Fixed float<>string conversion routines Revision 1.1.2.15 2002/11/28 20:24:11 michael + merged some fixes from mainbranch Revision 1.19 2002/09/07 16:01:22 peter * old logs removed and tabs fixed Revision 1.1.2.14 2002/11/28 20:13:10 michael + Fixed comparestr Revision 1.1.2.13 2002/10/29 23:41:06 michael + Added lots of D4 functions Revision 1.18 2002/09/02 06:07:16 michael + Fix for formatbuf not applied correct Revision 1.17 2002/08/29 10:04:48 michael + Fix for bug report 2097 in formatbuf Revision 1.16 2002/08/29 10:04:25 michael + Fix for bug report 2097 in formatbuf Revision 1.15 2002/07/06 12:14:03 daniel - Changes from Strasbourg Revision 1.14 2002/01/24 12:33:53 jonas * adapted ranges of native types to int64 (e.g. high cardinal is no longer longint($ffffffff), but just $fffffff in psystem) * small additional fix in 64bit rangecheck code generation for 32 bit processors * adaption of ranges required the matching talgorithm used for selecting which overloaded procedure to call to be adapted. It should now always select the closest match for ordinal parameters. + inttostr(qword) in sysstr.inc/sysstrh.inc + abs(int64), sqr(int64), sqr(qword) in systemh.inc/generic.inc (previous fixes were required to be able to add them) * is_in_limit() moved from ncal to types unit, should always be used instead of direct comparisons of low/high values of orddefs because qword is a special case }