{
*********************************************************************
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
new(result);
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
dispose(s);
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;
P : PChar;
begin
Result := S;
UniqueString(Result);
P:=Pchar(Result);
for i := 1 to Length(Result) do
begin
if (P^ in ['a'..'z']) then P^ := char(byte(p^) - 32);
Inc(P);
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;
P : PChar;
begin
Result := S;
UniqueString(Result);
P:=Pchar(Result);
for i := 1 to Length(Result) do
begin
if (P^ in ['A'..'Z']) then P^ := char(byte(p^) + 32);
Inc(P);
end;
end;
function LowerCase(const V: variant): string; overload;{$ifdef SYSUTILSINLINE}inline;{$endif}
begin
result:=LowerCase(ansistring(V));
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 then
result:=Count1-Count2;
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<length) do
begin
result:=byte(P1^)-byte(P2^);
P1:=pchar(P1)+1; // VP compat.
P2:=pchar(P2)+1;
i := i + 1;
end ;
end ;
function CompareMem(P1, P2: Pointer; Length: cardinal): Boolean;
var
i: cardinal;
begin
Result:=True;
I:=0;
If (P1)<>(P2) then
While Result and (i<Length) do
begin
Result:=PByte(P1)^=PByte(P2)^;
Inc(I);
Inc(pchar(P1));
Inc(pchar(P2));
end;
end;
{ CompareText compares S1 and S2, the result is the based on
substraction of the ascii values of characters in S1 and S2
comparison is case-insensitive
case result
S1 < S2 < 0
S1 > 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 (i<count) do
begin
inc (i);
Chr1 := byte(s1[i]);
Chr2 := byte(s2[i]);
if Chr1 in [97..122] then
dec(Chr1,32);
if Chr2 in [97..122] then
dec(Chr2,32);
result := Chr1 - Chr2;
end ;
if (result = 0) then
result:=(count1-count2);
end;
function SameText(const s1,s2:String):Boolean;
begin
Result:=CompareText(S1,S2)=0;
end;
{==============================================================================}
{ Ansi string functions }
{ these functions rely on the character set loaded by the OS }
{==============================================================================}
function GenericAnsiUpperCase(const s: string): string;
var
len, i: integer;
begin
len := length(s);
SetLength(result, len);
for i := 1 to len do
result[i] := UpperCaseTable[ord(s[i])];
end;
function GenericAnsiLowerCase(const s: string): string;
var
len, i: integer;
begin
len := length(s);
SetLength(result, len);
for i := 1 to len do
result[i] := LowerCaseTable[ord(s[i])];
end;
function GenericAnsiCompareStr(const S1, S2: string): PtrInt;
Var
I,L1,L2 : SizeInt;
begin
Result:=0;
L1:=Length(S1);
L2:=Length(S2);
I:=1;
While (Result=0) and ((I<=L1) and (I<=L2)) do
begin
Result:=Ord(S1[I])-Ord(S2[I]); //!! Must be replaced by ansi characters !!
Inc(I);
end;
If Result=0 Then
Result:=L1-L2;
end;
function GenericAnsiCompareText(const S1, S2: string): PtrInt;
Var
I,L1,L2 : SizeInt;
begin
Result:=0;
L1:=Length(S1);
L2:=Length(S2);
I:=1;
While (Result=0) and ((I<=L1) and (I<=L2)) do
begin
Result:=Ord(LowerCaseTable[Ord(S1[I])])-Ord(LowerCaseTable[Ord(S2[I])]); //!! Must be replaced by ansi characters !!
Inc(I);
end;
If Result=0 Then
Result:=L1-L2;
end;
function AnsiSameText(const s1,s2:String):Boolean;{$ifdef SYSUTILSINLINE}inline;{$endif}
begin
AnsiSameText:=AnsiCompareText(S1,S2)=0;
end;
function AnsiSameStr(const s1,s2:String):Boolean;{$ifdef SYSUTILSINLINE}inline;{$endif}
begin
AnsiSameStr:=AnsiCompareStr(S1,S2)=0;
end;
function GenericAnsiStrComp(S1, S2: PChar): PtrInt;
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(S1^)-Ord(S2^); //!! Must be replaced by ansi characters !!
Inc(S1);
Inc(S2);
Until (Result<>0) or (S1^=#0) or (S2^=#0);
if (Result=0) and (S1^<>S2^) then // loop ended because exactly one has #0
if S1^=#0 then // shorter string is smaller
result:=-1
else
result:=1;
end;
function GenericAnsiStrIComp(S1, S2: PChar): PtrInt;
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 GenericAnsiStrLComp(S1, S2: PChar; MaxLen: PtrUInt): PtrInt;
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 GenericAnsiStrLIComp(S1, S2: PChar; MaxLen: PtrUInt): PtrInt;
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 GenericAnsiStrLower(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 GenericAnsiStrUpper(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 ;
function AnsiUpperCase(const s: string): string;{$ifdef SYSUTILSINLINE}inline;{$endif}
begin
result:=widestringmanager.UpperAnsiStringProc(s);
end;
function AnsiLowerCase(const s: string): string;{$ifdef SYSUTILSINLINE}inline;{$endif}
begin
result:=widestringmanager.LowerAnsiStringProc(s);
end;
function AnsiCompareStr(const S1, S2: string): integer;{$ifdef SYSUTILSINLINE}inline;{$endif}
begin
result:=widestringmanager.CompareStrAnsiStringProc(s1,s2);
end;
function AnsiCompareText(const S1, S2: string): integer;{$ifdef SYSUTILSINLINE}inline;{$endif}
begin
result:=widestringmanager.CompareTextAnsiStringProc(s1,s2);
end;
function AnsiStrComp(S1, S2: PChar): integer;{$ifdef SYSUTILSINLINE}inline;{$endif}
begin
result:=widestringmanager.StrCompAnsiStringProc(s1,s2);
end;
function AnsiStrIComp(S1, S2: PChar): integer;{$ifdef SYSUTILSINLINE}inline;{$endif}
begin
result:=widestringmanager.StrICompAnsiStringProc(s1,s2);
end;
function AnsiStrLComp(S1, S2: PChar; MaxLen: cardinal): integer;{$ifdef SYSUTILSINLINE}inline;{$endif}
begin
result:=widestringmanager.StrLCompAnsiStringProc(s1,s2,maxlen);
end;
function AnsiStrLIComp(S1, S2: PChar; MaxLen: cardinal): integer;{$ifdef SYSUTILSINLINE}inline;{$endif}
begin
result:=widestringmanager.StrLICompAnsiStringProc(s1,s2,maxlen);
end;
function AnsiStrLower(Str: PChar): PChar;{$ifdef SYSUTILSINLINE}inline;{$endif}
begin
result:=widestringmanager.StrLowerAnsiStringProc(Str);
end;
function AnsiStrUpper(Str: PChar): PChar;{$ifdef SYSUTILSINLINE}inline;{$endif}
begin
result:=widestringmanager.StrUpperAnsiStringProc(Str);
end;
{==============================================================================}
{ End of Ansi functions }
{==============================================================================}
{ Trim returns a copy of S with blanks characters on the left and right stripped off }
Const WhiteSpace = [#0..' '];
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(var Src: PChar; Quote: Char): string;
var
P,Q,R: PChar;
begin
P := Src;
Q := StrEnd(P);
result:='';
if P=Q then exit;
if P^<>quote then exit;
inc(p);
setlength(result,(Q-P)+1);
R:=@Result[1];
while P <> Q do
begin
R^:=P^;
inc(R);
if (P^ = Quote) then
begin
P := P + 1;
if (p^ <> Quote) then
begin
dec(R);
break;
end;
end;
P := P + 1;
end ;
src:=p;
SetLength(result, (R-pchar(@Result[1])));
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<L) and (S[i+1]=#10) then
Inc(I)
else
Inc(DestLen)
else if (I<L) and (S[I+1]=#10) then
Dec(DestLen);
end;
Inc(I);
end;
if (DestLen=L) then
Result:=S
else
begin
SetLength(Result, DestLen);
FillChar(Result[1],DestLen,0);
Dest := Pointer(Result);
J:=0;
I:=0;
While I<L do
case Source[I] of
#10: begin
if Style=tlbsCRLF then
begin
Dest[j]:=#13;
Inc(J);
end;
Dest[J] := #10;
Inc(J);
Inc(I);
end;
#13: begin
if Style=tlbsCRLF then
begin
Dest[j] := #13;
Inc(J);
end;
Dest[j]:=#10;
Inc(J);
Inc(I);
if Source[I]=#10 then
Inc(I);
end;
else
Dest[j]:=Source[i];
Inc(J);
Inc(I);
end;
end;
end;
{ IsValidIdent returns true if the first character of Ident is in:
'A' to 'Z', 'a' to 'z' or '_' and the following characters are
on of: 'A' to 'Z', 'a' to 'z', '0'..'9' or '_' }
function IsValidIdent(const Ident: string): boolean;
var i, len: integer;
begin
result := false;
len := length(Ident);
if len <> 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 ;
function IntToStr(Value: int64): string;
begin
System.Str(Value, result);
end ;
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 ;
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 ;
function TryStrToInt(const s: string; var i : integer) : boolean;
var Error : word;
begin
Val(s, i, Error);
TryStrToInt:=Error=0
end;
{ 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;
var Error: word;
begin
Val(S, result, Error);
if Error <> 0 then raise EConvertError.createfmt(SInvalidInteger,[S]);
end ;
function StrToInt64(const S: string): int64;
var Error: word;
begin
Val(S, result, Error);
if Error <> 0 then raise EConvertError.createfmt(SInvalidInteger,[S]);
end;
function TryStrToInt64(const s: string; var i : int64) : boolean;
var Error : word;
begin
Val(s, i, Error);
TryStrToInt64:=Error=0
end;
function StrToQWord(const s: string): QWord;
var Error: word;
begin
Val(S, result, Error);
if Error <> 0 then raise EConvertError.createfmt(SInvalidInteger,[S]);
end;
function TryStrToQWord(const s: string; var Q: QWord): boolean;
var Error : word;
begin
Val(s, Q, Error);
TryStrToQWord:=Error=0
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;
var Error: word;
begin
Val(S, result, Error);
if Error <> 0 then result := Default;
end ;
{ StrToInt64Def converts the string S to an int64 value,
Default is returned in case S does not represent a valid int64 value }
function StrToInt64Def(const S: string; Default: int64): int64;
var Error: word;
begin
Val(S, result, Error);
if Error <> 0 then result := Default;
end ;
{ StrToQWordDef converts the string S to an QWord value,
Default is returned in case S does not represent a valid QWord value }
function StrToQWordDef(const S: string; Default: QWord): QWord;
var Error: word;
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;
{ we've no templates, but with includes we can simulate this :) }
{$macro on}
{$define INFORMAT}
{$define TFormatString:=ansistring}
{$define TFormatChar:=char}
Function Format (Const Fmt : AnsiString; const Args : Array of const; const FormatSettings: TFormatSettings) : AnsiString;
{$i sysformt.inc}
{$undef TFormatString}
{$undef TFormatChar}
{$undef INFORMAT}
{$macro off}
Function Format (Const Fmt : AnsiString; const Args : Array of const) : AnsiString;
begin
Result:=Format(Fmt,Args,DefaultFormatSettings);
end;
Function FormatBuf (Var Buffer; BufLen : Cardinal; Const Fmt; fmtLen : Cardinal; Const Args : Array of const; Const FormatSettings: TFormatSettings) : Cardinal;
Var S,F : String;
begin
Setlength(F,fmtlen);
if fmtlen > 0 then
Move(fmt,F[1],fmtlen);
S:=Format (F,Args,FormatSettings);
If Cardinal(Length(S))<Buflen then
Result:=Length(S)
else
Result:=Buflen;
Move(S[1],Buffer,Result);
end;
Function FormatBuf (Var Buffer; BufLen : Cardinal;
Const Fmt; fmtLen : Cardinal;
Const Args : Array of const) : Cardinal;
begin
Result:=FormatBuf(Buffer,BufLen,Fmt,FmtLen,Args,DefaultFormatSettings);
end;
Procedure FmtStr(Var Res: string; const Fmt : string; Const args: Array of const; Const FormatSettings: TFormatSettings);
begin
Res:=Format(fmt,Args,FormatSettings);
end;
Procedure FmtStr(Var Res: String; Const Fmt : String; Const args: Array of const);
begin
FmtStr(Res,Fmt,Args,DefaultFormatSettings);
end;
Function StrFmt(Buffer,Fmt : PChar; Const args: Array of const) : Pchar;
begin
Result:=StrFmt(Buffer,Fmt,Args,DefaultFormatSettings);
end;
Function StrFmt(Buffer,Fmt : PChar; Const Args: Array of const; Const FormatSettings: TFormatSettings): PChar;
begin
Buffer[FormatBuf(Buffer^,Maxint,Fmt^,strlen(fmt),args,FormatSettings)]:=#0;
Result:=Buffer;
end;
Function StrLFmt(Buffer : PCHar; Maxlen : Cardinal;Fmt : PChar; Const args: Array of const) : Pchar;
begin
Result:=StrLFmt(Buffer,MaxLen,Fmt,Args,DefaultFormatSettings);
end;
Function StrLFmt(Buffer : PCHar; Maxlen : Cardinal;Fmt : PChar; Const args: Array of const; Const FormatSettings: TFormatSettings) : Pchar;
begin
Buffer[FormatBuf(Buffer^,MaxLen,Fmt^,strlen(fmt),args,FormatSettings)]:=#0;
Result:=Buffer;
end;
Function StrToFloat(Const S: String): Extended;
begin
Result:=StrToFloat(S,DefaultFormatSettings);
end;
Function StrToFloat(Const S : String; Const FormatSettings: TFormatSettings) : Extended;
Begin
If Not TextToFloat(Pchar(S),Result,FormatSettings) then
Raise EConvertError.createfmt(SInValidFLoat,[S]);
End;
function StrToFloatDef(const S: string; const Default: Extended): Extended;
begin
Result:=StrToFloatDef(S,Default,DefaultFormatSettings);
end;
Function StrToFloatDef(Const S: String; Const Default: Extended; Const FormatSettings: TFormatSettings): Extended;
begin
if not TextToFloat(PChar(S),Result,fvExtended,FormatSettings) then
Result:=Default;
end;
Function TextToFloat(Buffer: PChar; Var Value: Extended; Const FormatSettings: TFormatSettings): Boolean;
Var
E,P : Integer;
S : String;
Begin
S:=StrPas(Buffer);
P:=Pos(FormatSettings.DecimalSeparator,S);
If (P<>0) Then
S[P] := '.';
Val(trim(S),Value,E);
Result:=(E=0);
End;
Function TextToFloat(Buffer: PChar; Var Value: Extended): Boolean;
begin
Result:=TextToFloat(Buffer,Value,DefaultFormatSettings);
end;
Function TextToFloat(Buffer: PChar; Var Value; ValueType: TFloatValue): Boolean;
begin
Result:=TextToFloat(Buffer,Value,ValueType,DefaultFormatSettings);
end;
Function TextToFloat(Buffer: PChar; Var Value; ValueType: TFloatValue; Const FormatSettings: TFormatSettings): Boolean;
Var
E,P : Integer;
S : String;
{$ifndef FPC_HAS_STR_CURRENCY}
TempValue: extended;
{$endif FPC_HAS_STR_CURRENCY}
Begin
S:=StrPas(Buffer);
P:=Pos(FormatSettings.ThousandSeparator,S);
While (P<>0) do
begin
Delete(S,P,1);
P:=Pos(FormatSettings.ThousandSeparator,S);
end;
P:=Pos(FormatSettings.DecimalSeparator,S);
If (P<>0) Then
S[P] := '.';
case ValueType of
fvCurrency:
{$ifdef FPC_HAS_STR_CURRENCY}
Val(S,Currency(Value),E);
{$else FPC_HAS_STR_CURRENCY}
begin
// needed for platforms where Currency = Int64
Val(S,TempValue,E);
Currency(Value) := TempValue;
end;
{$endif FPC_HAS_STR_CURRENCY}
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 TryStrToFloat(Const S : String; Var Value: Single): Boolean;
begin
Result:=TryStrToFloat(S,Value,DefaultFormatSettings);
end;
Function TryStrToFloat(Const S : String; Var Value: Single; Const FormatSettings: TFormatSettings): Boolean;
Begin
Result := TextToFloat(PChar(S), Value, fvSingle,FormatSettings);
End;
Function TryStrToFloat(Const S : String; Var Value: Double): Boolean;
begin
Result:=TryStrToFloat(S,Value,DefaultFormatSettings);
end;
Function TryStrToFloat(Const S : String; Var Value: Double; Const FormatSettings: TFormatSettings): Boolean;
Begin
Result := TextToFloat(PChar(S), Value, fvDouble,FormatSettings);
End;
{$ifdef FPC_HAS_TYPE_EXTENDED}
Function TryStrToFloat(Const S : String; Var Value: Extended): Boolean;
begin
Result:=TryStrToFloat(S,Value,DefaultFormatSettings);
end;
Function TryStrToFloat(Const S : String; Var Value: Extended; Const FormatSettings: TFormatSettings): Boolean;
Begin
Result := TextToFloat(PChar(S), Value,FormatSettings);
End;
{$endif FPC_HAS_TYPE_EXTENDED}
const
{$ifdef FPC_HAS_TYPE_EXTENDED}
maxdigits = 17;
{$else}
maxdigits = 15;
{$endif}
Function FloatToStrFIntl(const Value; format: TFloatFormat; Precision, Digits: Integer; ValueType: TFloatValue; Const FormatSettings: TFormatSettings): String;
Var
P: Integer;
Negative, TooSmall, TooLarge: Boolean;
DS: Char;
Begin
DS:=FormatSettings.DecimalSeparator;
Case format Of
ffGeneral:
Begin
case ValueType of
fvCurrency:
begin
If (Precision = -1) Or (Precision > 19) Then Precision := 19;
TooSmall:=False;
end;
else
begin
If (Precision = -1) Or (Precision > maxdigits) Then Precision := maxdigits;
TooSmall := (Abs(Extended(Value)) < 0.00001) and (Extended(Value)<>0.0);
end;
end;
If Not TooSmall Then
Begin
case ValueType of
fvDouble:
Str(Double(Extended(Value)):0:precision, Result);
fvSingle:
Str(Single(Extended(Value)):0:precision, Result);
fvCurrency:
{$ifdef FPC_HAS_STR_CURRENCY}
Str(Currency(Value):0:precision, Result);
{$else}
Str(Extended(Currency(Value)):0:precision, Result);
{$endif FPC_HAS_STR_CURRENCY}
else
Str(Extended(Value):0:precision, Result);
end;
P := Pos('.', Result);
if P<>0 then
Result[P] := DS;
TooLarge :=(P > Precision + 1) or (Pos('E', Result)<>0);
End;
If TooSmall Or TooLarge Then
begin
Result := FloatToStrFIntl(Value, ffExponent, Precision, Digits, ValueType,FormatSettings);
// Strip unneeded zeroes.
P:=Pos('E',result)-1;
If P<>-1 then
begin
{ delete superfluous +? }
if result[p+2]='+' then
system.Delete(Result,P+2,1);
While (P>1) and (Result[P]='0') do
begin
system.Delete(Result,P,1);
Dec(P);
end;
If (P>0) and (Result[P]=DS) Then
begin
system.Delete(Result,P,1);
Dec(P);
end;
end;
end
else if (P<>0) then // we have a decimalseparator
begin
{ it seems that in this unit "precision" must mean "number of }
{ significant digits" rather than "number of digits after the }
{ decimal point" (as it does in the system unit) -> adjust }
{ (precision+1 to count the decimal point character) }
if Result[1] = '-' then
Inc(Precision);
if (Length(Result) > Precision + 1) and
(Precision + 1 > P) then
begin
P := Precision + 1;
SetLength(Result,P);
end;
P := Length(Result);
While (P>0) and (Result[P] = '0') Do
Dec(P);
If (P>0) and (Result[P]=DS) Then
Dec(P);
SetLength(Result, P);
end;
End;
ffExponent:
Begin
If (Precision = -1) Or (Precision > maxdigits) Then Precision := maxdigits;
case ValueType of
fvDouble:
Str(Double(Extended(Value)):Precision+7, Result);
fvSingle:
Str(Single(Extended(Value)):Precision+6, Result);
fvCurrency:
{$ifdef FPC_HAS_STR_CURRENCY}
Str(Currency(Value):Precision+6, Result);
{$else}
Str(Extended(Currency(Value)):Precision+8, Result);
{$endif FPC_HAS_STR_CURRENCY}
else
Str(Extended(Value):Precision+8, Result);
end;
{ Delete leading spaces }
while Result[1] = ' ' do
System.Delete(Result, 1, 1);
if Result[1] = '-' then
Result[3] := DS
else
Result[2] := DS;
P:=Pos('E',Result);
if P <> 0 then
begin
Inc(P, 2);
if Digits > 4 then
Digits:=4;
Digits:=Length(Result) - P - Digits + 1;
if Digits < 0 then
insert(copy('0000',1,-Digits),Result,P)
else
while (Digits > 0) and (Result[P] = '0') do
begin
System.Delete(Result, P, 1);
if P > Length(Result) then
begin
System.Delete(Result, P - 2, 2);
break;
end;
Dec(Digits);
end;
end;
End;
ffFixed:
Begin
If Digits = -1 Then Digits := 2
Else If Digits > 18 Then Digits := 18;
case ValueType of
fvDouble:
Str(Double(Extended(Value)):0:Digits, Result);
fvSingle:
Str(Single(Extended(Value)):0:Digits, Result);
fvCurrency:
{$ifdef FPC_HAS_STR_CURRENCY}
Str(Currency(Value):0:Digits, Result);
{$else}
Str(Extended(Currency(Value)):0:Digits, Result);
{$endif FPC_HAS_STR_CURRENCY}
else
Str(Extended(Value):0:Digits, Result);
end;
If Result[1] = ' ' Then
System.Delete(Result, 1, 1);
P := Pos('.', Result);
If P <> 0 Then Result[P] := DS;
End;
ffNumber:
Begin
If Digits = -1 Then Digits := 2
Else If Digits > maxdigits Then Digits := maxdigits;
case ValueType of
fvDouble:
Str(Double(Extended(Value)):0:Digits, Result);
fvSingle:
Str(Single(Extended(Value)):0:Digits, Result);
fvCurrency:
{$ifdef FPC_HAS_STR_CURRENCY}
Str(Currency(Value):0:Digits, Result);
{$else}
Str(Extended(Currency(Value)):0:Digits, Result);
{$endif FPC_HAS_STR_CURRENCY}
else
Str(Extended(Value):0:Digits, Result);
end;
If Result[1] = ' ' Then System.Delete(Result, 1, 1);
P := Pos('.', Result);
If P <> 0 Then
Result[P] := DS
else
P := Length(Result)+1;
Dec(P, 3);
While (P > 1) Do
Begin
If Result[P - 1] <> '-' Then Insert(FormatSettings.ThousandSeparator, Result, P);
Dec(P, 3);
End;
End;
ffCurrency:
Begin
If Digits = -1 Then Digits := FormatSettings.CurrencyDecimals
Else If Digits > 18 Then Digits := 18;
case ValueType of
fvDouble:
Str(Double(Extended(Value)):0:Digits, Result);
fvSingle:
Str(Single(Extended(Value)):0:Digits, Result);
fvCurrency:
{$ifdef FPC_HAS_STR_CURRENCY}
Str(Currency(Value):0:Digits, Result);
{$else}
Str(Extended(Currency(Value)):0:Digits, Result);
{$endif FPC_HAS_STR_CURRENCY}
else
Str(Extended(Value):0:Digits, Result);
end;
Negative:=Result[1] = '-';
if Negative then
System.Delete(Result, 1, 1);
P := Pos('.', Result);
If P <> 0 Then Result[P] := DS;
Dec(P, 3);
While (P > 1) Do
Begin
Insert(FormatSettings.ThousandSeparator, Result, P);
Dec(P, 3);
End;
If Not Negative Then
Begin
Case FormatSettings.CurrencyFormat Of
0: Result := FormatSettings.CurrencyString + Result;
1: Result := Result + FormatSettings.CurrencyString;
2: Result := FormatSettings.CurrencyString + ' ' + Result;
3: Result := Result + ' ' + FormatSettings.CurrencyString;
End
End
Else
Begin
Case NegCurrFormat Of
0: Result := '(' + FormatSettings.CurrencyString + Result + ')';
1: Result := '-' + FormatSettings.CurrencyString + Result;
2: Result := FormatSettings.CurrencyString + '-' + Result;
3: Result := FormatSettings.CurrencyString + Result + '-';
4: Result := '(' + Result + FormatSettings.CurrencyString + ')';
5: Result := '-' + Result + FormatSettings.CurrencyString;
6: Result := Result + '-' + FormatSettings.CurrencyString;
7: Result := Result + FormatSettings.CurrencyString + '-';
8: Result := '-' + Result + ' ' + FormatSettings.CurrencyString;
9: Result := '-' + FormatSettings.CurrencyString + ' ' + Result;
10: Result := FormatSettings.CurrencyString + ' ' + Result + '-';
End;
End;
End;
End;
End;
{$ifdef FPC_HAS_TYPE_EXTENDED}
Function FloatToStr(Value: Extended; Const FormatSettings: TFormatSettings): String;
Begin
Result := FloatToStrFIntl(Value, ffGeneral, 15, 0, fvExtended,FormatSettings);
End;
Function FloatToStr(Value: Extended): String;
begin
Result:=FloatToStr(Value,DefaultFormatSettings);
end;
{$endif FPC_HAS_TYPE_EXTENDED}
Function FloatToStr(Value: Currency; Const FormatSettings: TFormatSettings): String;
Begin
Result := FloatToStrFIntl(Value, ffGeneral, 15, 0, fvCurrency,FormatSettings);
End;
Function FloatToStr(Value: Currency): String;
begin
Result:=FloatToStr(Value,DefaultFormatSettings);
end;
Function FloatToStr(Value: Double; Const FormatSettings: TFormatSettings): String;
var
e: Extended;
Begin
e := Value;
Result := FloatToStrFIntl(e, ffGeneral, 15, 0, fvDouble,FormatSettings);
End;
Function FloatToStr(Value: Double): String;
begin
Result:=FloatToStr(Value,DefaultFormatSettings);
end;
Function FloatToStr(Value: Single; Const FormatSettings: TFormatSettings): String;
var
e: Extended;
Begin
e := Value;
Result := FloatToStrFIntl(e, ffGeneral, 15, 0, fvSingle,FormatSettings);
End;
Function FloatToStr(Value: Single): String;
begin
Result:=FloatToStr(Value,DefaultFormatSettings);
end;
Function FloatToStr(Value: Comp; Const FormatSettings: TFormatSettings): String;
var
e: Extended;
Begin
e := Value;
Result := FloatToStrFIntl(e, ffGeneral, 15, 0, fvComp,FormatSettings);
End;
Function FloatToStr(Value: Comp): String;
begin
Result:=FloatToStr(Value,DefaultFormatSettings);
end;
{$ifndef FPC_COMP_IS_INT64}
Function FloatToStr(Value: Int64): String;
begin
Result:=FloatToStr(Value,DefaultFormatSettings);
end;
Function FloatToStr(Value: Int64; Const FormatSettings: TFormatSettings): String;
var
e: Extended;
Begin
e := Comp(Value);
Result := FloatToStrFIntl(e, ffGeneral, 15, 0, fvComp,FormatSettings);
End;
{$endif FPC_COMP_IS_INT64}
Function FloatToText(Buffer: PChar; Value: Extended; format: TFloatFormat; Precision, Digits: Integer; Const FormatSettings: TFormatSettings): Longint;
Var
Tmp: String[40];
Begin
Tmp := FloatToStrF(Value, format, Precision, Digits,FormatSettings);
Result := Length(Tmp);
Move(Tmp[1], Buffer[0], Result);
End;
Function FloatToText(Buffer: PChar; Value: Extended; format: TFloatFormat; Precision, Digits: Integer): Longint;
begin
Result:=FloatToText(Buffer,Value,Format,Precision,Digits,DefaultFormatSettings);
end;
{$ifdef FPC_HAS_TYPE_EXTENDED}
Function FloatToStrF(Value: Extended; format: TFloatFormat; Precision, Digits: Integer; Const FormatSettings: TFormatSettings): String;
begin
Result := FloatToStrFIntl(value,format,precision,digits,fvExtended,FormatSettings);
end;
Function FloatToStrF(Value: Extended; format: TFloatFormat; Precision, Digits: Integer): String;
begin
Result:=FloatToStrF(Value,Format,Precision,Digits,DefaultFormatSettings);
end;
{$endif}
Function FloatToStrF(Value: Currency; format: TFloatFormat; Precision, Digits: Integer; Const FormatSettings: TFormatSettings): String;
begin
Result := FloatToStrFIntl(value,format,precision,digits,fvCurrency,FormatSettings);
end;
Function FloatToStrF(Value: Currency; format: TFloatFormat; Precision, Digits: Integer): String;
begin
Result:=FloatToStrF(Value,format,Precision,Digits,DefaultFormatSettings);
end;
Function FloatToStrF(Value: Double; format: TFloatFormat; Precision, Digits: Integer; Const FormatSettings: TFormatSettings): String;
var
e: Extended;
begin
e := Value;
result := FloatToStrFIntl(e,format,precision,digits,fvDouble,FormatSettings);
end;
Function FloatToStrF(Value: Double; format: TFloatFormat; Precision, Digits: Integer): String;
begin
Result:= FloatToStrF(Value,Format,Precision,Digits,DefaultFormatSettings);
end;
Function FloatToStrF(Value: Single; format: TFloatFormat; Precision, Digits: Integer; Const FormatSettings: TFormatSettings): String;
var
e: Extended;
begin
e:=Value;
result := FloatToStrFIntl(e,format,precision,digits,fvSingle,FormatSettings);
end;
Function FloatToStrF(Value: Single; format: TFloatFormat; Precision, Digits: Integer): String;
begin
Result:= FloatToStrF(Value,Format,Precision,Digits,DefaultFormatSettings);
end;
Function FloatToStrF(Value: Comp; format: TFloatFormat; Precision, Digits: Integer; Const FormatSettings: TFormatSettings): String;
var
e: Extended;
begin
e := Value;
Result := FloatToStrFIntl(e,format,precision,digits,fvComp,FormatSettings);
end;
Function FloatToStrF(Value: Comp; format: TFloatFormat; Precision, Digits: Integer): String;
begin
Result:=FloatToStrF(Value,Format,Precision,Digits,DefaultFormatSettings);
end;
{$ifndef FPC_COMP_IS_INT64}
Function FloatToStrF(Value: Int64; format: TFloatFormat; Precision, Digits: Integer; Const FormatSettings: TFormatSettings): String;
var
e: Extended;
begin
e := Comp(Value);
result := FloatToStrFIntl(e,format,precision,digits,fvComp,FormatSettings);
end;
Function FloatToStrF(Value: Int64; format: TFloatFormat; Precision, Digits: Integer): String;
begin
Result:=FloatToStrF(Value,Format,Precision,Digits,DefaultFormatSettings);
end;
{$endif FPC_COMP_IS_INT64}
Function CurrToStrF(Value: Currency; Format: TFloatFormat; Digits: Integer; Const FormatSettings: TFormatSettings): string;
begin
result:=FloatToStrF(Value,Format,19,Digits,FormatSettings);
end;
Function CurrToStrF(Value: Currency; Format: TFloatFormat; Digits: Integer): string;
begin
Result:=CurrToStrF(Value,Format,Digits,DefaultFormatSettings);
end;
Function FloatToDateTime (Const Value : Extended) : TDateTime;
begin
If (Value<MinDateTime) or (Value>MaxDateTime) then
Raise EConvertError.CreateFmt (SInvalidDateTime,[Value]);
Result:=Value;
end;
function TryFloatToCurr(const Value: Extended; var AResult: Currency): Boolean;
begin
Result:=(Value>=MinCurrency) and (Value<=MaxCurrency);
if Result then
AResult := Value;
end;
function FloatToCurr(const Value: Extended): Currency;
begin
if not TryFloatToCurr(Value, Result) then
Raise EConvertError.CreateFmt(SInvalidCurrency, [FloatToStr(Value)]);
end;
Function CurrToStr(Value: Currency): string;
begin
Result:=FloatToStrF(Value,ffGeneral,-1,0);
end;
function AnsiDequotedStr(const S: string; AQuote: Char): string;
var p : pchar;
begin
p:=pchar(s); // work around CONST
result:=AnsiExtractquotedStr(p,AQuote);
if result='' Then
result:=s;
end;
function StrToCurr(const S: string): Currency;
begin
if not TextToFloat(PChar(S), Result, fvCurrency) then
Raise EConvertError.createfmt(SInValidFLoat,[S]);
end;
Function TryStrToCurr(Const S : String; Var Value: Currency): Boolean;
Begin
Result := TextToFloat(PChar(S), Value, fvCurrency);
End;
function StrToCurrDef(const S: string; Default : Currency): Currency;
begin
if not TextToFloat(PChar(S), Result, fvCurrency) then
Result:=Default;
end;
function StrToBool(const S: string): Boolean;
begin
if not(TryStrToBool(S,Result)) then
Raise EConvertError.CreateFmt(SInvalidBoolean,[S]);
end;
function BoolToStr(B: Boolean;UseBoolStrs:Boolean=False): string;
procedure CheckStrs;
begin
If Length(TrueBoolStrs)=0 then
begin
SetLength(TrueBoolStrs,1);
TrueBoolStrs[0]:='True';
end;
If Length(FalseBoolStrs)=0 then
begin
SetLength(FalseBoolStrs,1);
FalseBoolStrs[0]:='False';
end;
end;
begin
if UseBoolStrs Then
begin
CheckStrs;
if B then
Result:=TrueBoolStrs[0]
else
Result:=FalseBoolStrs[0];
end
else
If B then
Result:='-1'
else
Result:='0';
end;
function StrToBoolDef(const S: string; Default: Boolean): Boolean;
begin
if not(TryStrToBool(S,Result)) then
Result:=Default;
end;
function TryStrToBool(const S: string; out Value: Boolean): Boolean;
Var
Temp : String;
D : Double;
Code: word;
begin
Temp:=upcase(S);
Val(temp,D,code);
Result:=true;
If Code=0 then
Value:=(D<>0.0)
else If Temp='TRUE' then
Value:=true
else if Temp='FALSE' then
Value:=false
else
Result:=false;
end;
Function FloatToTextFmt(Buffer: PChar; Value: Extended; format: PChar): Integer;
begin
Result:=FloatToTextFmt(Buffer,Value,Format,DefaultFormatSettings);
end;
Function FloatToTextFmt(Buffer: PChar; Value: Extended; format: PChar;FormatSettings : TFormatSettings): 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
{ if not in quotes, then interpret}
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<FmtStop) Then
Begin
Case Fmt[0] Of
'+':
Begin
End;
'-':
Inc(ExpFmt);
Else
ExpFmt := 0;
End;
If ExpFmt <> 0 Then
Begin
Inc(Fmt);
ExpSize := 0;
While (Fmt<FmtStop) And
(ExpSize<4) And
(Fmt[0] In ['0'..'9']) Do
Begin
Inc(ExpSize);
Inc(Fmt);
End;
End;
End;
End
Else
Inc(Fmt);
Else { Case }
Inc(Fmt);
End; { Case }
End { Begin }
Else
Inc(Fmt);
End; { Case }
End; { While .. Begin }
End;
Procedure FloatToStr;
Var
I, J, Exp, Width, Decimals, DecimalPoint, len: Integer;
Begin
If ExpFmt = 0 Then
Begin
{ Fixpoint }
Decimals:=Placehold[3]+Placehold[4];
Width:=Placehold[1]+Placehold[2]+Decimals;
If (Decimals=0) Then
Str(Value:Width:0,Digits)
Else
Str(Value:Width+1:Decimals,Digits);
len:=Length(Digits);
{ Find the decimal point }
If (Decimals=0) Then
DecimalPoint:=len+1
Else
DecimalPoint:=len-Decimals;
{ If value is very small, and no decimal places
are desired, remove the leading 0. }
If (Abs(Value) < 1) And (Placehold[2] = 0) Then
Begin
If (Placehold[1]=0) Then
Delete(Digits,DecimalPoint-1,1)
Else
Digits[DecimalPoint-1]:=' ';
End;
{ Convert optional zeroes to spaces. }
I:=len;
J:=DecimalPoint+Placehold[3];
While (I>J) 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<DecimalPoint) And (Digits[I]=' ') Do
Begin
Digits[I] := '0';
Inc(I);
End;
Exp := 0;
End
Else
Begin
{ Scientific: exactly <Width> Digits With <Precision> 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<Length(Digits)) And
(Digits[DecimalPoint+1]=' ') Then
Digits[DecimalPoint]:=' ';
If (Digits[1]=' ') Then
Begin
Delete(Digits, 1, 1);
Dec(DecimalPoint);
End;
{ Calculate exponent string }
Str(Abs(Exp), Exponent);
While Length(Exponent)<ExpSize Do
Insert('0',Exponent,1);
If Exp >= 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 (Fmt<FmtStop) Do
Begin
//Write(Fmt[0]);
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
If Not (SQ Or DQ) Then
Begin
Case Fmt[0] Of
'0', '#', '.':
Begin
If (Dig=1) And (UnexpectedDigits>0) 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] := FormatSettings.ThousandSeparator;
Inc(Buf);
End;
Dec(DigitExponent);
End;
End;
Inc(Dig, UnexpectedDigits);
End;
If (Digits[Dig]<>' ') Then
Begin
If (Digits[Dig]='.') Then
Buf[0] := FormatSettings.DecimalSeparator
Else
Buf[0] := Digits[Dig];
Inc(Buf);
If thousand And (DigitExponent Mod 3 = 0) And (DigitExponent > 0) Then
Begin
Buf[0] := FormatSettings.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, FormatSettings);
End
Else
Begin
GetFormatOptions;
If (ExpFmt = 0) And (Abs(Value) >= 1E18) Then
Result := FloatToText(Buffer, Value, ffGeneral, 15, 4, FormatSettings)
Else
Begin
FloatToStr;
Result := PutResult;
End;
End;
End;
Procedure FloatToDecimal(Out Result: TFloatRec; const Value; ValueType: TFloatValue; Precision, Decimals : integer);
var
Buffer: String[254]; //Though str func returns only 25 chars, this might change in the future
Error, N, L, Start, C: Integer;
GotNonZeroBeforeDot, BeforeDot : boolean;
begin
case ValueType of
fvExtended:
Str(Extended(Value):25, Buffer);
fvDouble,
fvReal:
Str(Double(Value):23, Buffer);
fvSingle:
Str(Single(Value):16, Buffer);
fvCurrency:
Str(Currency(Value):25, Buffer);
fvComp:
Str(Currency(Value):23, Buffer);
end;
N := 1;
L := Byte(Buffer[0]);
while Buffer[N]=' ' do
Inc(N);
Result.Negative := (Buffer[N] = '-');
if Result.Negative then
Inc(N);
Start := N; //Start of digits
Result.Exponent := 0; BeforeDot := true;
GotNonZeroBeforeDot := false;
while (L>=N) and (Buffer[N]<>'E') do
begin
if Buffer[N]='.' then
BeforeDot := false
else
begin
if BeforeDot then
begin // Currently this is always 1 char
Inc(Result.Exponent);
Result.Digits[N-Start] := Buffer[N];
if Buffer[N] <> '0' then
GotNonZeroBeforeDot := true;
end
else
Result.Digits[N-Start-1] := Buffer[N]
end;
Inc(N);
end;
Inc(N); // Pass through 'E'
if N<=L then
begin
Val(Copy(Buffer, N, L-N+1), C, Error); // Get exponent after 'E'
Inc(Result.Exponent, C);
end;
// Calculate number of digits we have from str
if BeforeDot then
N := N - Start - 1
else
N := N - Start - 2;
L := SizeOf(Result.Digits);
if N<L then
FillChar(Result.Digits[N], L-N, '0'); //Zero remaining space
if Decimals + Result.Exponent < Precision Then //After this it is the same as in FloatToDecimal
N := Decimals + Result.Exponent
Else
N := Precision;
if N >= L Then
N := L-1;
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 //N=0
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 (N > -1) And (Result.Digits[N] = '0') Do
begin
Result.Digits[N] := #0;
Dec(N);
end;
end;
end //N>0
Else
Result.Digits[0] := #0;
if (Result.Digits[0] = #0) and
not GotNonZeroBeforeDot then
begin
Result.Exponent := 0;
Result.Negative := False;
end;
end;
Procedure FloatToDecimal(Out Result: TFloatRec; Value: Extended; Precision, Decimals : integer);
begin
FloatToDecimal(Result,Value,fvExtended,Precision,Decimals);
end;
Function FormatFloat(Const Format : String; Value : Extended; Const FormatSettings: TFormatSettings) : String;
Var
buf : Array[0..1024] of char;
Begin
Buf[FloatToTextFmt(@Buf[0],Value,Pchar(Format),FormatSettings)]:=#0;
Result:=StrPas(@Buf[0]);
End;
Function FormatFloat(Const format: String; Value: Extended): String;
begin
Result:=FormatFloat(Format,Value,DefaultFormatSettings);
end;
Function FormatCurr(const Format: string; Value: Currency; Const FormatSettings: TFormatSettings): string;
begin
Result := FormatFloat(Format, Value,FormatSettings);
end;
function FormatCurr(const Format: string; Value: Currency): string;
begin
Result:=FormatCurr(Format,Value,DefaultFormatSettings);
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:=AnsiUpperCase(Srch);
OldP:=AnsiUpperCase(OldP);
end;
RemS:=S;
Result:='';
while (Length(Srch)<>0) do
begin
P:=AnsiPos(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>0) and (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 StrCharLength(const Str: PChar): Integer;
begin
result:=widestringmanager.CharLengthPCharProc(Str);
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;
function WrapText(const Line, BreakStr: string; const BreakChars: TSysCharSet; MaxCol: Integer): string;
const
Quotes = ['''', '"'];
Var
L : String;
C,LQ,BC : Char;
P,BLen,Len : Integer;
HB,IBC : Boolean;
begin
Result:='';
L:=Line;
Blen:=Length(BreakStr);
If (BLen>0) then
BC:=BreakStr[1]
else
BC:=#0;
Len:=Length(L);
While (Len>0) do
begin
P:=1;
LQ:=#0;
HB:=False;
IBC:=False;
While ((P<=Len) and ((P<=MaxCol) or not IBC)) and ((LQ<>#0) or Not HB) do
begin
C:=L[P];
If (C=LQ) then
LQ:=#0
else If (C in Quotes) then
LQ:=C;
If (LQ<>#0) then
Inc(P)
else
begin
HB:=((C=BC) and (BreakStr=Copy(L,P,BLen)));
If HB then
Inc(P,Blen)
else
begin
If (P>MaxCol) then
IBC:=C in BreakChars;
Inc(P);
end;
end;
// Writeln('"',C,'" : IBC : ',IBC,' HB : ',HB,' LQ : ',LQ,' P>MaxCol : ',P>MaxCol);
end;
Result:=Result+Copy(L,1,P-1);
If Not HB then
Result:=Result+BreakStr;
Delete(L,1,P-1);
Len:=Length(L);
end;
end;
function WrapText(const Line: string; MaxCol: Integer): string;
begin
Result:=WrapText(Line,sLineBreak, [' ', '-', #9], MaxCol);
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 =
(#128,#154,#144,#182,#142,#182,#143,#128,#210,#211,#212,#216,#215,#222,#142,#143,
#144,#146,#146,#226,#153,#227,#234,#235,'Y',#153,#154,#157,#156,#157,#158,#159,
#181,#214,#224,#233,#165,#165,#166,#167,#168,#169,#170,#171,#172,#173,#174,#175,
#176,#177,#178,#179,#180,#181,#182,#183,#184,#185,#186,#187,#188,#189,#190,#191,
#192,#193,#194,#195,#196,#197,#199,#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,
#224,#225,#226,#227,#229,#229,#230,#237,#232,#233,#234,#235,#237,#237,#238,#239,
#240,#241,#242,#243,#244,#245,#246,#247,#248,#249,#250,#251,#252,#253,#254,#255);
{ lower case translation table for character set 850 }
CP850LCT: array[128..255] of char =
(#135,#129,#130,#131,#132,#133,#134,#135,#136,#137,#138,#139,#140,#141,#132,#134,
#130,#145,#145,#147,#148,#149,#150,#151,#152,#148,#129,#155,#156,#155,#158,#159,
#160,#161,#162,#163,#164,#164,#166,#167,#168,#169,#170,#171,#172,#173,#174,#175,
#176,#177,#178,#179,#180,#160,#131,#133,#184,#185,#186,#187,#188,#189,#190,#191,
#192,#193,#194,#195,#196,#197,#198,#198,#200,#201,#202,#203,#204,#205,#206,#207,
#208,#209,#136,#137,#138,#213,#161,#140,#139,#217,#218,#219,#220,#221,#141,#223,
#162,#225,#147,#149,#228,#228,#230,#237,#232,#163,#150,#151,#236,#236,#238,#239,
#240,#241,#242,#243,#244,#245,#246,#247,#248,#249,#250,#251,#252,#253,#254,#255);
{ 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 );
function sscanf(const s: string; const fmt : string;const Pointers : array of Pointer) : Integer;
var
i,j,n,m : SizeInt;
s1 : string;
function GetInt(unsigned : boolean=false) : Integer;
begin
s1 := '';
while (Length(s) > n) and (s[n] = ' ') do
inc(n);
{ read sign }
if (Length(s)>= n) and (s[n] in ['+', '-']) then
begin
{ don't accept - when reading unsigned }
if unsigned and (s[n]='-') then
begin
result:=length(s1);
exit;
end
else
begin
s1:=s1+s[n];
inc(n);
end;
end;
{ read numbers }
while (Length(s) >= n) and
(s[n] in ['0'..'9']) do
begin
s1 := s1+s[n];
inc(n);
end;
Result := Length(s1);
end;
function GetFloat : Integer;
begin
s1 := '';
while (Length(s) > n) and (s[n] = ' ') do
inc(n);
while (Length(s) >= n) and
(s[n] in ['0'..'9', '+', '-', '.', 'e', 'E']) do
begin
s1 := s1+s[n];
inc(n);
end;
Result := Length(s1);
end;
function GetString : Integer;
begin
s1 := '';
while (Length(s) > n) and (s[n] = ' ') do
inc(n);
while (Length(s) >= n) and (s[n] <> ' ')do
begin
s1 := s1+s[n];
inc(n);
end;
Result := Length(s1);
end;
function ScanStr(c : Char) : Boolean;
begin
while (Length(s) > n) and (s[n] <> c) do
inc(n);
inc(n);
If (n <= Length(s)) then
Result := True
else
Result := False;
end;
function GetFmt : Integer;
begin
Result := -1;
while true do
begin
while (Length(fmt) > m) and (fmt[m] = ' ') do
inc(m);
if (m >= Length(fmt)) then
break;
if (fmt[m] = '%') then
begin
inc(m);
case fmt[m] of
'd':
Result:=vtInteger;
'f':
Result:=vtExtended;
's':
Result:=vtString;
'c':
Result:=vtChar;
else
raise EFormatError.CreateFmt(SInvalidFormat,[fmt]);
end;
inc(m);
break;
end;
if not(ScanStr(fmt[m])) then
break;
inc(m);
end;
end;
begin
n := 1;
m := 1;
Result := 0;
for i:=0 to High(Pointers) do
begin
j := GetFmt;
case j of
vtInteger :
begin
if GetInt>0 then
begin
pLongint(Pointers[i])^:=StrToInt(s1);
inc(Result);
end
else
break;
end;
vtchar :
begin
if Length(s)>n then
begin
pchar(Pointers[i])^:=s[n];
inc(n);
inc(Result);
end
else
break;
end;
vtExtended :
begin
if GetFloat>0 then
begin
pextended(Pointers[i])^:=StrToFloat(s1);
inc(Result);
end
else
break;
end;
vtString :
begin
if GetString > 0 then
begin
pansistring(Pointers[i])^:=s1;
inc(Result);
end
else
break;
end;
else
break;
end;
end;
end;
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