{ ********************************************************************* 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 } {==============================================================================} { internal functions } {==============================================================================} Function DoEncodeDate(Year, Month, Day: Word): longint; Var D : TDateTime; begin If TryEncodeDate(Year,Month,Day,D) then Result:=Trunc(D) else Result:=0; end; function DoEncodeTime(Hour, Minute, Second, MilliSecond: word): TDateTime; begin If not TryEncodeTime(Hour,Minute,Second,MilliSecond,Result) then Result:=0; end; {==============================================================================} { Public functions } {==============================================================================} { ComposeDateTime converts a Date and a Time into one TDateTime } function ComposeDateTime(Date,Time : TDateTime) : TDateTime; begin if Date < 0 then Result := trunc(Date) - Abs(frac(Time)) else Result := trunc(Date) + Abs(frac(Time)); end; { DateTimeToTimeStamp converts DateTime to a TTimeStamp } function DateTimeToTimeStamp(DateTime: TDateTime): TTimeStamp; begin result.Time := Round(abs(Frac(DateTime)) * MSecsPerDay); result.Date := DateDelta + trunc(DateTime); end ; { TimeStampToDateTime converts TimeStamp to a TDateTime value } function TimeStampToDateTime(const TimeStamp: TTimeStamp): TDateTime; begin Result := ComposeDateTime(TimeStamp.Date - DateDelta,TimeStamp.Time / MSecsPerDay) end; { MSecsToTimeStamp } function MSecsToTimeStamp(MSecs: comp): TTimeStamp; begin result.Date := Trunc(msecs / msecsperday); msecs:= msecs-comp(result.date)*msecsperday; result.Time := Round(MSecs); end ; { TimeStampToMSecs } function TimeStampToMSecs(const TimeStamp: TTimeStamp): comp; begin result := TimeStamp.Time + comp(timestamp.date)*msecsperday; end ; Function TryEncodeDate(Year,Month,Day : Word; Out Date : TDateTime) : Boolean; var c, ya: cardinal; begin Result:=(Year>0) and (Year<10000) and (Month in [1..12]) and (Day>0) and (Day<=MonthDays[IsleapYear(Year),Month]); If Result then begin if month > 2 then Dec(Month,3) else begin Inc(Month,9); Dec(Year); end; c:= Year DIV 100; ya:= Year - 100*c; Date := (146097*c) SHR 2 + (1461*ya) SHR 2 + (153*cardinal(Month)+2) DIV 5 + cardinal(Day); // Note that this line can't be part of the line above, since TDateTime is // signed and c and ya are not Date := Date - 693900; end end; function TryEncodeTime(Hour, Min, Sec, MSec:word; Out Time : TDateTime) : boolean; begin Result:=(Hour<24) and (Min<60) and (Sec<60) and (MSec<1000); If Result then Time:=TDateTime(cardinal(Hour)*3600000+cardinal(Min)*60000+cardinal(Sec)*1000+MSec)/MSecsPerDay; end; { EncodeDate packs three variables Year, Month and Day into a TDateTime value the result is the number of days since 12/30/1899 } function EncodeDate(Year, Month, Day: word): TDateTime; begin If Not TryEncodeDate(Year,Month,Day,Result) then Raise EConvertError.CreateFmt('%d-%d-%d is not a valid date specification', [Year,Month,Day]); end; { EncodeTime packs four variables Hour, Minute, Second and MilliSecond into a TDateTime value } function EncodeTime(Hour, Minute, Second, MilliSecond:word):TDateTime; begin If not TryEncodeTime(Hour,Minute,Second,MilliSecond,Result) then Raise EConvertError.CreateFmt('%d:%d:%d.%d is not a valid time specification', [Hour,Minute,Second,MilliSecond]); end; { DecodeDate unpacks the value Date into three values: Year, Month and Day } procedure DecodeDate(Date: TDateTime; out Year, Month, Day: word); var ly,ld,lm,j : cardinal; begin if Date <= -datedelta then // If Date is before 1-1-1 then return 0-0-0 begin Year := 0; Month := 0; Day := 0; end else begin j := pred((Trunc(System.Int(Date)) + 693900) SHL 2); ly:= j DIV 146097; j:= j - 146097 * cardinal(ly); ld := j SHR 2; j:=(ld SHL 2 + 3) DIV 1461; ld:= (cardinal(ld) SHL 2 + 7 - 1461*j) SHR 2; lm:=(5 * ld-3) DIV 153; ld:= (5 * ld +2 - 153*lm) DIV 5; ly:= 100 * cardinal(ly) + j; if lm < 10 then inc(lm,3) else begin dec(lm,9); inc(ly); end; year:=ly; month:=lm; day:=ld; end; end; function DecodeDateFully(const DateTime: TDateTime; out Year, Month, Day, DOW: Word): Boolean; begin DecodeDate(DateTime,Year,Month,Day); DOW:=DayOfWeek(DateTime); Result:=IsLeapYear(Year); end; { DecodeTime unpacks Time into four values: Hour, Minute, Second and MilliSecond } procedure DecodeTime(Time: TDateTime; out Hour, Minute, Second, MilliSecond: word); Var l : cardinal; begin l := Round(abs(Frac(time)) * MSecsPerDay); Hour := l div 3600000; l := l mod 3600000; Minute := l div 60000; l := l mod 60000; Second := l div 1000; l := l mod 1000; MilliSecond := l; end; { DateTimeToSystemTime converts DateTime value to SystemTime } procedure DateTimeToSystemTime(DateTime: TDateTime; out SystemTime: TSystemTime); begin DecodeDate(DateTime, SystemTime.Year, SystemTime.Month, SystemTime.Day); DecodeTime(DateTime, SystemTime.Hour, SystemTime.Minute, SystemTime.Second, SystemTime.MilliSecond); end ; { SystemTimeToDateTime converts SystemTime to a TDateTime value } function SystemTimeToDateTime(const SystemTime: TSystemTime): TDateTime; begin result := ComposeDateTime(DoEncodeDate(SystemTime.Year, SystemTime.Month, SystemTime.Day), DoEncodeTime(SystemTime.Hour, SystemTime.Minute, SystemTime.Second, SystemTime.MilliSecond)); end ; { DayOfWeek returns the Day of the week (sunday is day 1) } function DayOfWeek(DateTime: TDateTime): integer; begin Result := 1 + (Abs(Trunc(DateTime) - 1) mod 7); end ; { Date returns the current Date } function Date: TDateTime; var SystemTime: TSystemTime; begin GetLocalTime(SystemTime); result := DoEncodeDate(SystemTime.Year, SystemTime.Month, SystemTime.Day); end ; { Time returns the current Time } function Time: TDateTime; var SystemTime: TSystemTime; begin GetLocalTime(SystemTime); Result := DoEncodeTime(SystemTime.Hour,SystemTime.Minute,SystemTime.Second,SystemTime.MilliSecond); end ; { Now returns the current Date and Time } function Now: TDateTime; var SystemTime: TSystemTime; begin GetLocalTime(SystemTime); result := systemTimeToDateTime(SystemTime); end; { IncMonth increments DateTime with NumberOfMonths months, NumberOfMonths can be less than zero } function IncMonth(const DateTime: TDateTime; NumberOfMonths: integer = 1 ): TDateTime; var Year, Month, Day : word; begin DecodeDate(DateTime, Year, Month, Day); IncAMonth(Year, Month, Day, NumberOfMonths); result := ComposeDateTime(DoEncodeDate(Year, Month, Day), DateTime); end ; { IncAMonth is the same as IncMonth, but operates on decoded date } procedure IncAMonth(var Year, Month, Day: Word; NumberOfMonths: Integer = 1); var TempMonth, S: Integer; begin If NumberOfMonths>=0 then s:=1 else s:=-1; inc(Year,(NumberOfMonths div 12)); TempMonth:=Month+(NumberOfMonths mod 12)-1; if (TempMonth>11) or (TempMonth<0) then begin Dec(TempMonth, S*12); Inc(Year, S); end; Month:=TempMonth+1; { Months from 1 to 12 } If (Day>MonthDays[IsLeapYear(Year)][Month]) then Day:=MonthDays[IsLeapYear(Year)][Month]; end; { IsLeapYear returns true if Year is a leap year } function IsLeapYear(Year: Word): boolean; begin Result := (Year mod 4 = 0) and ((Year mod 100 <> 0) or (Year mod 400 = 0)); end; { DateToStr returns a string representation of Date using ShortDateFormat } function DateToStr(Date: TDateTime): string; begin DateTimeToString(Result, 'ddddd', Date); end ; function DateToStr(Date: TDateTime; const FormatSettings: TFormatSettings): string; begin DateTimeToString(result, FormatSettings.ShortDateFormat, Date, FormatSettings); end; { TimeToStr returns a string representation of Time using LongTimeFormat } function TimeToStr(Time: TDateTime): string; begin DateTimeToString(Result, 'tt', Time); end ; function TimeToStr(Time: TDateTime; const FormatSettings: TFormatSettings): string; begin DateTimeToString(Result, FormatSettings.LongTimeFormat, Time, FormatSettings); end; { DateTimeToStr returns a string representation of DateTime using LongDateTimeFormat } function DateTimeToStr(DateTime: TDateTime): string; begin DateTimeToString(Result, 'c', DateTime); end ; function DateTimeToStr(DateTime: TDateTime; const FormatSettings: TFormatSettings): string; begin DateTimeToString(Result, 'c', DateTime ,FormatSettings); end; { StrToDate converts the string S to a TDateTime value if S does not represent a valid date value an EConvertError will be raised } function IntStrToDate(Out ErrorMsg : AnsiString; const S: PChar; Len : integer; const useformat : string; const defs:TFormatSettings; separator : char = #0): TDateTime; const SInvalidDateFormat = '"%s" is not a valid date format'; procedure FixErrorMsg(const errm :ansistring;const errmarg : ansistring); begin errormsg:=format(errm,[errmarg]); end; var df:string; d,m,y,ly:word; n,i:longint; c:word; dp,mp,yp,which : Byte; s1:string[4]; values:array[1..3] of longint; LocalTime:tsystemtime; YearMoreThenTwoDigits : boolean; begin ErrorMsg:=''; Result:=0; if (Len=0) then begin FixErrorMsg(SInvalidDateFormat,''); exit; end; YearMoreThenTwoDigits := False; if separator = #0 then separator := defs.DateSeparator; df := UpperCase(useFormat); { Determine order of D,M,Y } yp:=0; mp:=0; dp:=0; Which:=0; i:=0; while (i3 then begin FixErrorMsg(SErrIllegalDateFormatString,useformat); Exit; end; { Get actual values } for i := 1 to 3 do values[i] := 0; s1 := ''; n := 0; dec(len); for i := 0 to len do begin if s[i] in ['0'..'9'] then s1 := s1 + s[i]; { space can be part of the shortdateformat, and is defaultly in slovak windows, therefor it shouldn't be taken as separator (unless so specified) and ignored } if (Separator <> ' ') and (s[i] = ' ') then Continue; if (s[i] = separator) or ((i = len) and (s[i] in ['0'..'9'])) then begin inc(n); if n>3 then begin FixErrorMsg(SInvalidDateFormat,s); exit; end; // Check if the year has more then two digits (if n=yp, then we are evaluating the year.) if (n=yp) and (length(s1)>2) then YearMoreThenTwoDigits := True; val(s1, values[n], c); if c<>0 then begin FixErrorMsg(SInvalidDateFormat,s); Exit; end; s1 := ''; end else if not (s[i] in ['0'..'9']) then begin FixErrorMsg(SInvalidDateFormat,s); Exit; end; end ; // Fill in values. getLocalTime(LocalTime); ly := LocalTime.Year; If N=3 then begin y:=values[yp]; m:=values[mp]; d:=values[dp]; end Else begin Y:=ly; If n<2 then begin d:=values[1]; m := LocalTime.Month; end else If dp= 0) and (y < 100) and not YearMoreThenTwoDigits then begin ly := ly - defs.TwoDigitYearCenturyWindow; Inc(Y, ly div 100 * 100); if (defs.TwoDigitYearCenturyWindow > 0) and (Y < ly) then Inc(Y, 100); end; if not TryEncodeDate(y, m, d, result) then errormsg:='Invalid date'; end; function StrToDate(const S: PChar; Len : integer; const useformat : string; separator : char = #0): TDateTime; Var MSg : AnsiString; begin Result:=IntStrToDate(Msg,S,Len,useFormat,DefaultFormatSettings,Separator); If (Msg<>'') then Raise EConvertError.Create(Msg); end; function StrToDate(const S: ShortString; const useformat : string; separator : char = #0): TDateTime; begin result := StrToDate(@S[1],Length(s),UseFormat,separator); end; function StrToDate(const S: AnsiString; const useformat : string; separator : char = #0): TDateTime; begin result := StrToDate(@S[1],Length(s),UseFormat,separator); end; function StrToDate(const S: ShortString; separator : char): TDateTime; begin result := StrToDate(@S[1],Length(s),ShortDateFormat,separator) end; function StrToDate(const S: ShortString): TDateTime; begin result := StrToDate(@S[1],Length(s),ShortDateFormat,#0); end; function StrToDate(const S: AnsiString; separator : char): TDateTime; begin result := StrToDate(@S[1],Length(s),ShortDateFormat,separator) end; function StrToDate(const S: AnsiString): TDateTime; begin result := StrToDate(@S[1],Length(s),ShortDateFormat,#0); end; { StrToTime converts the string S to a TDateTime value if S does not represent a valid time value an EConvertError will be raised } function IntStrToTime(Out ErrorMsg : AnsiString; const S: PChar; Len : integer;const defs:TFormatSettings; separator : char = #0): TDateTime; const AMPM_None = 0; AMPM_AM = 1; AMPM_PM = 2; tiHour = 0; tiMin = 1; tiSec = 2; tiMSec = 3; type TTimeValues = array[tiHour..tiMSec] of Word; var AmPm: integer; TimeValues: TTimeValues; function StrPas(Src : PChar; len: integer = 0) : ShortString; begin //this is unsafe for len > 255, it will trash memory (I tested this) //reducing it is safe, since whenever we use this a string > 255 is invalid anyway if len > 255 then len := 255; SetLength(Result, len); move(src[0],result[1],len); end; function SplitElements(out TimeValues: TTimeValues; out AmPm: Integer): Boolean; //Strict version. It does not allow #32 as Separator, it will treat it as whitespace always const Digits = ['0'..'9']; var Cur, Offset, ElemLen, Err, TimeIndex, FirstSignificantDigit: Integer; Value: Word; DigitPending, MSecPending: Boolean; AmPmStr: ShortString; CurChar: Char; begin Result := False; AmPm := AMPM_None; //No Am or PM in string found yet MSecPending := False; TimeIndex := 0; //indicating which TTimeValue must be filled next FillChar(TimeValues, SizeOf(TTimeValues), 0); Cur := 0; //skip leading blanks While (Cur < Len) and (S[Cur] =#32) do Inc(Cur); Offset := Cur; //First non-blank cannot be Separator or DecimalSeparator if (Cur > Len - 1) or (S[Cur] = Separator) or (S[Cur] = defs.Decimalseparator) then Exit; DigitPending := (S[Cur] in Digits); While (Cur < Len) do begin //writeln; //writeln('Main While loop: Cur = ',Cur,' S[Cur] = "',S[Cur],'" Len = ',Len); CurChar := S[Cur]; if CurChar in Digits then begin//Digits //HH, MM, SS, or Msec? //writeln('Digit'); //Digits are only allowed after starting Am/PM or at beginning of string or after Separator //and TimeIndex must be <= tiMSec //Uncomment "or (#32 = Separator)" and it will allllow #32 as separator if (not (DigitPending {or (#32 = Separator)})) or (TimeIndex > tiMSec) then Exit; OffSet := Cur; if (CurChar <> '0') then FirstSignificantDigit := OffSet else FirstSignificantDigit := -1; while (Cur < Len -1) and (S[Cur + 1] in Digits) do begin //Mark first Digit that is not '0' if (FirstSignificantDigit = -1) and (S[Cur] <> '0') then FirstSignificantDigit := Cur; Inc(Cur); end; if (FirstSignificantDigit = -1) then FirstSignificantDigit := Cur; ElemLen := 1 + Cur - FirstSignificantDigit; //writeln(' S[FirstSignificantDigit] = ',S[FirstSignificantDigit], ' S[Cur] = ',S[Cur],' ElemLen = ',ElemLen,' -> ', StrPas(S + Offset, ElemLen)); //writeln(' Cur = ',Cur); //this way we know that Val() will never overflow Value ! if (ElemLen <= 2) or ((ElemLen <= 3) and (TimeIndex = tiMSec) ) then begin Val(StrPas(S + FirstSignificantDigit, ElemLen), Value, Err); //writeln(' Value = ',Value,' HH = ',TimeValues[0],' MM = ',TimeValues[1],' SS = ',TimeValues[2],' MSec = ',Timevalues[3]); //This is safe now, because we know Value < High(Word) TimeValues[TimeIndex] := Value; Inc(TimeIndex); DigitPending := False; end else Exit; //Value to big, so it must be a wrong timestring end//Digits else if (CurChar = #32) then begin //writeln('#32'); //just skip, but we must adress this, or it will be parsed by either AM/PM or Separator end else if (CurChar = Separator) then begin //writeln('Separator'); if DigitPending or (TimeIndex > tiSec) then Exit; DigitPending := True; MSecPending := False; end else if (CurChar = defs.DecimalSeparator) then begin //writeln('DecimalSeparator'); if DigitPending or MSecPending or (TimeIndex <> tiMSec) then Exit; DigitPending := True; MSecPending := True; end else begin//AM/PM? //None of the above, so this char _must_ be the start of AM/PM string //If we already have found AM/PM or we expect a digit then then timestring must be wrong at this point //writeln('AM/PM?'); if (AmPm <> AMPM_None) or DigitPending then Exit; OffSet := Cur; while (Cur < Len -1) and (not (S[Cur + 1] in [Separator, #32, defs.DecimalSeparator])) and not (S[Cur + 1] in Digits) do Inc(Cur); ElemLen := 1 + Cur - OffSet; //writeln(' S[Offset] = ',S[Offset], ' S[Cur] = ',S[Cur],' ElemLen = ',ElemLen,' -> ', StrPas(S + Offset, ElemLen)); //writeln(' Cur = ',Cur); AmPmStr := StrPas(S + OffSet, ElemLen); //writeln('AmPmStr = ',ampmstr,' (',length(ampmstr),')'); //We must compare to TimeAMString before hardcoded 'AM' for delphi compatibility //Also it is perfectly legal, though insane to have TimeAMString = 'PM' and vice versa if (AnsiCompareText(AmPmStr, defs.TimeAMString) = 0) then AmPm := AMPM_AM else if (AnsiCompareText(AmPmStr, defs.TimePMString) = 0) then AmPm := AMPM_PM else if (CompareText(AmPmStr, 'AM') = 0) then AmPm := AMPM_AM else if (CompareText(AmPmStr, 'PM') = 0) then AmPm := AMPM_PM else Exit; //If text does not match any of these, timestring must be wrong; //if AM/PM is at beginning of string, then a digit is mandatory after it if (TimeIndex = tiHour) then begin DigitPending := True; end //otherwise, no more TimeValues allowed after this else begin TimeIndex := tiMSec + 1; DigitPending := False; end; end;//AM/PM Inc(Cur) end;//while //If we arrive here, parsing the elements has been successfull //if not at least Hours specified then input is not valid //when am/pm is specified Hour must be <= 12 and not 0 if (TimeIndex = tiHour) or ((AmPm <> AMPM_None) and ((TimeValues[tiHour] > 12) or (TimeValues[tiHour] = 0))) or DigitPending then Exit; Result := True; end; begin if separator = #0 then separator := defs.TimeSeparator; AmPm := AMPM_None; if not SplitElements(TimeValues, AmPm) then begin ErrorMsg:=Format(SErrInvalidTimeFormat,[StrPas(S, Len)]); Exit; end; if (AmPm=AMPM_PM) and (TimeValues[tiHour]<>12) then Inc(TimeValues[tiHour], 12) else if (AmPm=AMPM_AM) and (TimeValues[tiHour]=12) then TimeValues[tiHour]:=0; if not TryEncodeTime(TimeValues[tiHour], TimeValues[tiMin], TimeValues[tiSec], TimeValues[tiMSec], result) Then //errormsg:='Invalid time.'; ErrorMsg:=Format(SErrInvalidTimeFormat,[StrPas(S, Len)]); end ; function StrToTime(const S: PChar; Len : integer; separator : char = #0): TDateTime; Var Msg : AnsiString; begin Result:=IntStrToTime(Msg,S,Len,DefaultFormatSettings,Separator); If (Msg<>'') then Raise EConvertError.Create(Msg); end; function StrToTime(const s: ShortString; separator : char): TDateTime; begin result := StrToTime(@s[1], length(s), separator); end; function StrToTime(const s: AnsiString; separator : char): TDateTime; begin result := StrToTime(@s[1], length(s), separator); end; function StrToTime(const s: ShortString): TDateTime; begin result := StrToTime(@s[1], length(s), #0); end; function StrToTime(const s: AnsiString): TDateTime; begin result := StrToTime(@s[1], length(s), #0); end; { StrToDateTime converts the string S to a TDateTime value if S does not represent a valid date and/or time value an EConvertError will be raised } function StrToDateTime(const s: string): TDateTime; var I: integer; begin I:=Pos(TimeSeparator,S); If (I>0) then begin While (I>0) and (S[I]<>' ') do Dec(I); If I>0 then result:=ComposeDateTime(StrToDate(Copy(S,1,I-1)),StrToTime(Copy(S,i+1, Length(S)-i))) else result:=StrToTime(S) end else Result:=StrToDate(S); end; function StrToDateTime(const s: AnsiString; const UseFormat : TFormatSettings): TDateTime; var I: integer; begin I:=Pos(TimeSeparator,S); If (I>0) then begin While (I>0) and (S[I]<>' ') do Dec(I); If I>0 then result:=ComposeDateTime(StrToDate(Copy(S,1,I-1),UseFormat.ShortDateFormat,UseFormat.DateSeparator), StrToTime(Copy(S,i+1, Length(S)-i),UseFormat.TimeSeparator)) else result:=StrToTime(S,UseFormat.TimeSeparator) end else Result:=StrToDate(S,UseFormat.ShortDateFormat,UseFormat.DateSeparator); end; function StrToDateTime(const s: ShortString; const UseFormat : TFormatSettings): TDateTime; var I: integer; begin I:=Pos(TimeSeparator,S); If (I>0) then begin While (I>0) and (S[I]<>' ') do Dec(I); If I>0 then result:=ComposeDateTime(StrToDate(Copy(S,1,I-1),UseFormat.ShortDateFormat,UseFormat.DateSeparator), StrToTime(Copy(S,i+1, Length(S)-i),UseFormat.TimeSeparator)) else result:=StrToTime(S,UseFormat.TimeSeparator) end else Result:=StrToDate(S,UseFormat.ShortDateFormat,UseFormat.DateSeparator); end; { FormatDateTime formats DateTime to the given format string FormatStr } function FormatDateTime(const FormatStr: string; DateTime: TDateTime): string; begin DateTimeToString(Result, FormatStr, DateTime, DefaultFormatSettings); end; function FormatDateTime(const FormatStr: string; DateTime: TDateTime; const FormatSettings: TFormatSettings): string; begin DateTimeToString(Result, FormatStr, DateTime, FormatSettings); end; { DateTimeToString formats DateTime to the given format in FormatStr } procedure DateTimeToString(out Result: string; const FormatStr: string; const DateTime: TDateTime); begin DateTimeToString(Result, FormatStr, DateTime, DefaultFormatSettings); end; procedure DateTimeToString(out Result: string; const FormatStr: string; const DateTime: TDateTime; const FormatSettings: TFormatSettings); var ResultLen: integer; ResultBuffer: array[0..255] of char; ResultCurrent: pchar; procedure StoreStr(Str: PChar; Len: Integer); begin if ResultLen + Len < SizeOf(ResultBuffer) then begin StrMove(ResultCurrent, Str, Len); ResultCurrent := ResultCurrent + Len; ResultLen := ResultLen + Len; end; end; procedure StoreString(const Str: string); var Len: integer; begin Len := Length(Str); if ResultLen + Len < SizeOf(ResultBuffer) then begin StrMove(ResultCurrent, pchar(Str), Len); ResultCurrent := ResultCurrent + Len; ResultLen := ResultLen + Len; end; end; procedure StoreInt(Value, Digits: Integer); var S: string[16]; Len: integer; begin System.Str(Value:Digits, S); for Len := 1 to Length(S) do begin if S[Len] = ' ' then S[Len] := '0' else Break; end; StoreStr(pchar(@S[1]), Length(S)); end ; var Year, Month, Day, DayOfWeek, Hour, Minute, Second, MilliSecond: word; procedure StoreFormat(const FormatStr: string; Nesting: Integer; TimeFlag: Boolean); var Token, lastformattoken: char; FormatCurrent: pchar; FormatEnd: pchar; Count: integer; Clock12: boolean; P: pchar; tmp: integer; begin if Nesting > 1 then // 0 is original string, 1 is included FormatString Exit; FormatCurrent := PChar(FormatStr); FormatEnd := FormatCurrent + Length(FormatStr); Clock12 := false; P := FormatCurrent; // look for unquoted 12-hour clock token while P < FormatEnd do begin Token := P^; case Token of '''', '"': begin Inc(P); while (P < FormatEnd) and (P^ <> Token) do Inc(P); end; 'A', 'a': begin if (StrLIComp(P, 'A/P', 3) = 0) or (StrLIComp(P, 'AMPM', 4) = 0) or (StrLIComp(P, 'AM/PM', 5) = 0) then begin Clock12 := true; break; end; end; end; // case Inc(P); end ; token := #255; lastformattoken := ' '; while FormatCurrent < FormatEnd do begin Token := UpCase(FormatCurrent^); Count := 1; P := FormatCurrent + 1; case Token of '''', '"': begin while (P < FormatEnd) and (p^ <> Token) do Inc(P); Inc(P); Count := P - FormatCurrent; StoreStr(FormatCurrent + 1, Count - 2); end ; 'A': begin if StrLIComp(FormatCurrent, 'AMPM', 4) = 0 then begin Count := 4; if Hour < 12 then StoreString(FormatSettings.TimeAMString) else StoreString(FormatSettings.TimePMString); end else if StrLIComp(FormatCurrent, 'AM/PM', 5) = 0 then begin Count := 5; if Hour < 12 then StoreStr(FormatCurrent, 2) else StoreStr(FormatCurrent+3, 2); end else if StrLIComp(FormatCurrent, 'A/P', 3) = 0 then begin Count := 3; if Hour < 12 then StoreStr(FormatCurrent, 1) else StoreStr(FormatCurrent+2, 1); end else raise EConvertError.Create('Illegal character in format string'); end ; '/': StoreStr(@FormatSettings.DateSeparator, 1); ':': StoreStr(@FormatSettings.TimeSeparator, 1); ' ', 'C', 'D', 'H', 'M', 'N', 'S', 'T', 'Y','Z' : begin while (P < FormatEnd) and (UpCase(P^) = Token) do Inc(P); Count := P - FormatCurrent; case Token of ' ': StoreStr(FormatCurrent, Count); 'Y': begin if Count > 2 then StoreInt(Year, 4) else StoreInt(Year mod 100, 2); end; 'M': begin if (lastformattoken = 'H') or TimeFlag then begin if Count = 1 then StoreInt(Minute, 0) else StoreInt(Minute, 2); end else begin case Count of 1: StoreInt(Month, 0); 2: StoreInt(Month, 2); 3: StoreString(FormatSettings.ShortMonthNames[Month]); else StoreString(FormatSettings.LongMonthNames[Month]); end; end; end; 'D': begin case Count of 1: StoreInt(Day, 0); 2: StoreInt(Day, 2); 3: StoreString(FormatSettings.ShortDayNames[DayOfWeek]); 4: StoreString(FormatSettings.LongDayNames[DayOfWeek]); 5: StoreFormat(FormatSettings.ShortDateFormat, Nesting+1, False); else StoreFormat(FormatSettings.LongDateFormat, Nesting+1, False); end ; end ; 'H': if Clock12 then begin tmp := hour mod 12; if tmp=0 then tmp:=12; if Count = 1 then StoreInt(tmp, 0) else StoreInt(tmp, 2); end else begin if Count = 1 then StoreInt(Hour, 0) else StoreInt(Hour, 2); end; 'N': if Count = 1 then StoreInt(Minute, 0) else StoreInt(Minute, 2); 'S': if Count = 1 then StoreInt(Second, 0) else StoreInt(Second, 2); 'Z': if Count = 1 then StoreInt(MilliSecond, 0) else StoreInt(MilliSecond, 3); 'T': if Count = 1 then StoreFormat(FormatSettings.ShortTimeFormat, Nesting+1, True) else StoreFormat(FormatSettings.LongTimeFormat, Nesting+1, True); 'C': begin StoreFormat(FormatSettings.ShortDateFormat, Nesting+1, False); if (Hour<>0) or (Minute<>0) or (Second<>0) then begin StoreString(' '); StoreFormat(FormatSettings.LongTimeFormat, Nesting+1, True); end; end; end; lastformattoken := token; end; else StoreStr(@Token, 1); end ; Inc(FormatCurrent, Count); end; end; begin DecodeDateFully(DateTime, Year, Month, Day, DayOfWeek); DecodeTime(DateTime, Hour, Minute, Second, MilliSecond); ResultLen := 0; ResultCurrent := @ResultBuffer[0]; if FormatStr <> '' then StoreFormat(FormatStr, 0, False) else StoreFormat('C', 0, False); ResultBuffer[ResultLen] := #0; result := StrPas(@ResultBuffer[0]); end ; Function DateTimeToFileDate(DateTime : TDateTime) : Longint; Var YY,MM,DD,H,m,s,msec : Word; begin Decodedate (DateTime,YY,MM,DD); DecodeTime (DateTime,h,m,s,msec); {$ifndef unix} If (YY<1980) or (YY>2099) then Result:=0 else begin Result:=(s shr 1) or (m shl 5) or (h shl 11); Result:=Result or longint(DD shl 16 or (MM shl 21) or (word(YY-1980) shl 25)); end; {$else unix} Result:=LocalToEpoch(yy,mm,dd,h,m,s); {$endif unix} end; function CurrentYear: Word; var SysTime: TSystemTime; begin GetLocalTime(SysTime); Result := SysTime.Year; end; Function FileDateToDateTime (Filedate : Longint) : TDateTime; {$ifndef unix} Var Date,Time : Word; begin Date:=FileDate shr 16; Time:=FileDate and $ffff; Result:=ComposeDateTime(EncodeDate((Date shr 9) + 1980,(Date shr 5) and 15, Date and 31), EncodeTime(Time shr 11, (Time shr 5) and 63, (Time and 31) shl 1,0)); end; {$else unix} var y, mon, d, h, min, s: word; begin EpochToLocal(FileDate,y,mon,d,h,min,s); Result:=ComposeDateTime(EncodeDate(y,mon,d),EncodeTime(h,min,s,0)); end; {$endif unix} function TryStrToDate(const S: ShortString; out Value: TDateTime): Boolean; begin result := TryStrToDate(S, Value, #0); end; function TryStrToDate(const S: ShortString; out Value: TDateTime; const useformat : string; separator : char = #0): Boolean; Var Msg : Ansistring; begin Value:=IntStrToDate(Msg,@S[1],Length(S),useformat,defaultformatsettings,separator); Result:=(Msg=''); end; function TryStrToDate(const S: AnsiString; out Value: TDateTime; const useformat : string; separator : char = #0): Boolean; Var Msg : Ansistring; begin Result:=Length(S)<>0; If Result then begin Value:=IntStrToDate(Msg,@S[1],Length(S),useformat,DefaultFormatSettings,Separator); Result:=(Msg=''); end; end; function TryStrToDate(const S: ShortString; out Value: TDateTime; separator : char): Boolean; begin Result:=TryStrToDate(S,Value,ShortDateFormat,Separator); end; function TryStrToDate(const S: AnsiString; out Value: TDateTime): Boolean; begin Result:=TryStrToDate(S,Value,ShortDateFormat,#0); end; function TryStrToDate(const S: AnsiString; out Value: TDateTime; separator : char): Boolean; begin Result:=TryStrToDate(S,Value,ShortDateFormat,Separator); end; function TryStrToDate(const S: string; out Value: TDateTime; const FormatSettings: TFormatSettings): Boolean; Var Msg : Ansistring; begin Result:=Length(S)<>0; If Result then begin Value:=IntStrToDate(Msg,@S[1],Length(S),FormatSettings.ShortDateFormat,FormatSettings,#0); Result:=(Msg=''); end; end; function TryStrToTime(const S: ShortString; out Value: TDateTime; separator : char): Boolean; Var Msg : AnsiString; begin Value:=IntStrToTime(Msg,@S[1],Length(S),DefaultFormatSettings,Separator); result:=(Msg=''); end; function TryStrToTime(const S: ShortString; out Value: TDateTime): Boolean; begin Result := TryStrToTime(S,Value,#0); end; function TryStrToTime(const S: AnsiString; out Value: TDateTime; separator : char): Boolean; Var Msg : AnsiString; begin Result:=Length(S)<>0; If Result then begin Value:=IntStrToTime(Msg,@S[1],Length(S),DefaultFormatSettings,Separator); Result:=(Msg=''); end; end; function TryStrToTime(const S: AnsiString; out Value: TDateTime): Boolean; begin result := TryStrToTime(S,Value,#0); end; function TryStrToTime(const S: string; out Value: TDateTime; const FormatSettings: TFormatSettings): Boolean; Var msg : AnsiString; begin Result:=Length(S)<>0; If Result then begin Value:=IntStrToTime(Msg,@S[1],Length(S),FormatSettings,#0); Result:=(Msg=''); end; end; function TryStrToDateTime(const S: ShortString; out Value: TDateTime): Boolean; begin result:=true; try value:=StrToDateTime(s); except on EConvertError do result:=false end; end; function TryStrToDateTime(const S: AnsiString; out Value: TDateTime): Boolean; begin result:=true; try value:=StrToDateTime(s); except on EConvertError do result:=false end; end; function TryStrToDateTime(const S: string; out Value: TDateTime; const FormatSettings: TFormatSettings): Boolean; var I: integer; dtdate, dttime :TDateTime; begin result:=true; I:=Pos(FormatSettings.TimeSeparator,S); If (I>0) then begin While (I>0) and (S[I]<>' ') do Dec(I); If I>0 then begin if not TryStrToDate(Copy(S,1,I-1),dtdate,Formatsettings) then exit; if not TryStrToTime(Copy(S,i+1, Length(S)-i),dttime,Formatsettings) then exit; Value:=ComposeDateTime(dtdate,dttime); end else result:=TryStrToTime(s,Value,Formatsettings); end else result:=TryStrToDate(s,Value,Formatsettings); end; function StrToDateDef(const S: ShortString; const Defvalue : TDateTime): TDateTime; begin result := StrToDateDef(S,DefValue,#0); end; function StrToTimeDef(const S: ShortString; const Defvalue : TDateTime): TDateTime; begin result := StrToTimeDef(S,DefValue,#0); end; function StrToDateTimeDef(const S: ShortString; const Defvalue : TDateTime): TDateTime; begin if not TryStrToDateTime(s,Result) Then result:=defvalue; end; function StrToDateDef(const S: ShortString; const Defvalue : TDateTime; separator : char): TDateTime; begin if not TryStrToDate(s,Result, separator) Then result:=defvalue; end; function StrToTimeDef(const S: ShortString; const Defvalue : TDateTime; separator : char): TDateTime; begin if not TryStrToTime(s,Result, separator) Then result:=defvalue; end; function StrToDateDef(const S: AnsiString; const Defvalue : TDateTime): TDateTime; begin result := StrToDateDef(S,DefValue,#0); end; function StrToTimeDef(const S: AnsiString; const Defvalue : TDateTime): TDateTime; begin result := StrToTimeDef(S,DefValue,#0); end; function StrToDateTimeDef(const S: AnsiString; const Defvalue : TDateTime): TDateTime; begin if not TryStrToDateTime(s,Result) Then result:=defvalue; end; function StrToDateDef(const S: AnsiString; const Defvalue : TDateTime; separator : char): TDateTime; begin if not TryStrToDate(s,Result, separator) Then result:=defvalue; end; function StrToTimeDef(const S: AnsiString; const Defvalue : TDateTime; separator : char): TDateTime; begin if not TryStrToTime(s,Result, separator) Then result:=defvalue; end; procedure ReplaceTime(var dati:TDateTime; NewTime : TDateTime);inline; begin dati:= ComposeDateTime(dati, newtime); end; procedure ReplaceDate(var DateTime: TDateTime; const NewDate: TDateTime); inline; var tmp : TDateTime; begin tmp:=NewDate; ReplaceTime(tmp,DateTime); DateTime:=tmp; end;