{ This file is part of the Free Pascal Run time library. Copyright (c) 1999-2000 by the Free Pascal development team See the file COPYING.FPC, included in this distribution, for details about the copyright. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. **********************************************************************} {**************************************************************************** subroutines For TextFile handling ****************************************************************************} Procedure FileCloseFunc(Var t:TextRec); Begin Do_Close(t.Handle); t.Handle:=UnusedHandle; End; Procedure FileReadFunc(var t:TextRec); Begin t.BufEnd:=Do_Read(t.Handle,t.Bufptr,t.BufSize); t.BufPos:=0; End; Procedure FileWriteFunc(var t:TextRec); var i : longint; Begin { prevent unecessary system call } if t.BufPos=0 then exit; i:=Do_Write(t.Handle,t.Bufptr,t.BufPos); if i<>t.BufPos then InOutRes:=101; t.BufPos:=0; End; Procedure FileOpenFunc(var t:TextRec); var Flags : Longint; Begin Case t.mode Of fmInput : Flags:=$10000; fmOutput : Flags:=$11001; fmAppend : Flags:=$10101; else begin InOutRes:=102; exit; end; End; Do_Open(t,PChar(@t.Name),Flags); t.CloseFunc:=@FileCloseFunc; t.FlushFunc:=nil; if t.Mode=fmInput then t.InOutFunc:=@FileReadFunc else begin t.InOutFunc:=@FileWriteFunc; { Only install flushing if its a NOT a file, and only check if there was no error opening the file, becuase else we always get a bad file handle error 6 (PFV) } if (InOutRes=0) and Do_Isdevice(t.Handle) then t.FlushFunc:=@FileWriteFunc; end; End; Procedure Assign({$ifdef PARAOUTFILE}out{$else}var{$endif} t:Text;const s:String); Begin FillChar(t,SizeOf(TextRec),0); { only set things that are not zero } TextRec(t).Handle:=UnusedHandle; TextRec(t).mode:=fmClosed; TextRec(t).BufSize:=TextRecBufSize; TextRec(t).Bufptr:=@TextRec(t).Buffer; TextRec(t).OpenFunc:=@FileOpenFunc; Case DefaultTextLineBreakStyle Of tlbsLF: TextRec(t).LineEnd := #10; tlbsCRLF: TextRec(t).LineEnd := #13#10; tlbsCR: TextRec(t).LineEnd := #13; End; Move(s[1],TextRec(t).Name,Length(s)); End; Procedure Assign({$ifdef PARAOUTFILE}out{$else}var{$endif} t:Text;p:pchar); begin Assign(t,StrPas(p)); end; Procedure Assign({$ifdef PARAOUTFILE}out{$else}var{$endif} t:Text;c:char); begin Assign(t,string(c)); end; Procedure Close(var t : Text);[IOCheck]; Begin if InOutRes<>0 then Exit; case TextRec(t).mode of fmInput,fmOutput,fmAppend: Begin { Write pending buffer } If Textrec(t).Mode=fmoutput then FileFunc(TextRec(t).InOutFunc)(TextRec(t)); { Only close functions not connected to stdout.} If ((TextRec(t).Handle<>StdInputHandle) and (TextRec(t).Handle<>StdOutputHandle) and (TextRec(t).Handle<>StdErrorHandle)) Then FileFunc(TextRec(t).CloseFunc)(TextRec(t)); TextRec(t).mode := fmClosed; { Reset buffer for safety } TextRec(t).BufPos:=0; TextRec(t).BufEnd:=0; End else inOutRes := 103; End; End; Procedure OpenText(var t : Text;mode,defHdl:Longint); Begin Case TextRec(t).mode Of {This gives the fastest code} fmInput,fmOutput,fmInOut : Close(t); fmClosed : ; else Begin InOutRes:=102; exit; End; End; TextRec(t).mode:=mode; TextRec(t).bufpos:=0; TextRec(t).bufend:=0; FileFunc(TextRec(t).OpenFunc)(TextRec(t)); { reset the mode to closed when an error has occured } if InOutRes<>0 then TextRec(t).mode:=fmClosed; End; Procedure Rewrite(var t : Text);[IOCheck]; Begin If InOutRes<>0 then exit; OpenText(t,fmOutput,1); End; Procedure Reset(var t : Text);[IOCheck]; Begin If InOutRes<>0 then exit; OpenText(t,fmInput,0); End; Procedure Append(var t : Text);[IOCheck]; Begin If InOutRes<>0 then exit; OpenText(t,fmAppend,1); End; Procedure Flush(var t : Text);[IOCheck]; Begin If InOutRes<>0 then exit; if TextRec(t).mode<>fmOutput then begin if TextRec(t).mode=fmInput then InOutRes:=105 else InOutRes:=103; exit; end; { Not the flushfunc but the inoutfunc should be used, becuase that writes the data, flushfunc doesn't need to be assigned } FileFunc(TextRec(t).InOutFunc)(TextRec(t)); End; Procedure Erase(var t:Text);[IOCheck]; Begin If InOutRes <> 0 then exit; If TextRec(t).mode=fmClosed Then Do_Erase(PChar(@TextRec(t).Name)); End; Procedure Rename(var t : text;p:pchar);[IOCheck]; Begin If InOutRes <> 0 then exit; If TextRec(t).mode=fmClosed Then Begin Do_Rename(PChar(@TextRec(t).Name),p); { check error code of do_rename } If InOutRes = 0 then Move(p^,TextRec(t).Name,StrLen(p)+1); End; End; Procedure Rename(var t : Text;const s : string);[IOCheck]; var p : array[0..255] Of Char; Begin If InOutRes <> 0 then exit; Move(s[1],p,Length(s)); p[Length(s)]:=#0; Rename(t,Pchar(@p)); End; Procedure Rename(var t : Text;c : char);[IOCheck]; var p : array[0..1] Of Char; Begin If InOutRes <> 0 then exit; p[0]:=c; p[1]:=#0; Rename(t,Pchar(@p)); End; Function Eof(Var t: Text): Boolean;[IOCheck]; Begin If (InOutRes<>0) then exit(true); if (TextRec(t).mode<>fmInput) Then begin if TextRec(t).mode=fmOutput then InOutRes:=104 else InOutRes:=103; exit(true); end; If TextRec(t).BufPos>=TextRec(t).BufEnd Then begin FileFunc(TextRec(t).InOutFunc)(TextRec(t)); If TextRec(t).BufPos>=TextRec(t).BufEnd Then exit(true); end; Eof:=CtrlZMarksEOF and (TextRec(t).Bufptr^[TextRec(t).BufPos]=#26); end; Function Eof:Boolean; Begin Eof:=Eof(Input); End; Function SeekEof (Var t : Text) : Boolean; var oldfilepos : Int64; oldbufpos, oldbufend : SizeInt; reads: longint; isdevice: boolean; Begin If (InOutRes<>0) then exit(true); if (TextRec(t).mode<>fmInput) Then begin if TextRec(t).mode=fmOutPut then InOutRes:=104 else InOutRes:=103; exit(true); end; { try to save the current position in the file, seekeof() should not move } { the current file position (JM) } oldbufpos := TextRec(t).BufPos; oldbufend := TextRec(t).BufEnd; reads := 0; oldfilepos := -1; isdevice := Do_IsDevice(TextRec(t).handle); repeat If TextRec(t).BufPos>=TextRec(t).BufEnd Then begin { signal that the we will have to do a seek } inc(reads); if not isdevice and (reads = 1) then begin oldfilepos := Do_FilePos(TextRec(t).handle) - TextRec(t).BufEnd; InOutRes:=0; end; FileFunc(TextRec(t).InOutFunc)(TextRec(t)); If TextRec(t).BufPos>=TextRec(t).BufEnd Then begin { if we only did a read in which we didn't read anything, the } { old buffer is still valid and we can simply restore the } { pointers (JM) } dec(reads); SeekEof := true; break; end; end; case TextRec(t).Bufptr^[TextRec(t).BufPos] of #26 : if CtrlZMarksEOF then begin SeekEof := true; break; end; #10,#13,#9,' ' : ; else begin SeekEof := false; break; end; end; inc(TextRec(t).BufPos); until false; { restore file position if not working with a device } if not isdevice then { if we didn't modify the buffer, simply restore the BufPos and BufEnd } { (the latter becuase it's now probably set to zero because nothing was } { was read anymore) } if (reads = 0) then begin TextRec(t).BufPos:=oldbufpos; TextRec(t).BufEnd:=oldbufend; end { otherwise return to the old filepos and reset the buffer } else begin do_seek(TextRec(t).handle,oldfilepos); InOutRes:=0; FileFunc(TextRec(t).InOutFunc)(TextRec(t)); TextRec(t).BufPos:=oldbufpos; end; End; Function SeekEof : Boolean; Begin SeekEof:=SeekEof(Input); End; Function Eoln(var t:Text) : Boolean; Begin If (InOutRes<>0) then exit(true); if (TextRec(t).mode<>fmInput) Then begin if TextRec(t).mode=fmOutPut then InOutRes:=104 else InOutRes:=103; exit(true); end; If TextRec(t).BufPos>=TextRec(t).BufEnd Then begin FileFunc(TextRec(t).InOutFunc)(TextRec(t)); If TextRec(t).BufPos>=TextRec(t).BufEnd Then exit(true); end; if CtrlZMarksEOF and (TextRec (T).BufPtr^[TextRec (T).BufPos] = #26) then exit (true); Eoln:=(TextRec(t).Bufptr^[TextRec(t).BufPos] in [#10,#13]); End; Function Eoln : Boolean; Begin Eoln:=Eoln(Input); End; Function SeekEoln (Var t : Text) : Boolean; Begin If (InOutRes<>0) then exit(true); if (TextRec(t).mode<>fmInput) Then begin if TextRec(t).mode=fmOutput then InOutRes:=104 else InOutRes:=103; exit(true); end; repeat If TextRec(t).BufPos>=TextRec(t).BufEnd Then begin FileFunc(TextRec(t).InOutFunc)(TextRec(t)); If TextRec(t).BufPos>=TextRec(t).BufEnd Then exit(true); end; case TextRec(t).Bufptr^[TextRec(t).BufPos] of #26: if CtrlZMarksEOF then exit (true); #10,#13 : exit(true); #9,' ' : ; else exit(false); end; inc(TextRec(t).BufPos); until false; End; Function SeekEoln : Boolean; Begin SeekEoln:=SeekEoln(Input); End; Procedure SetTextBuf(Var F : Text; Var Buf; Size : SizeInt); Begin TextRec(f).BufPtr:=@Buf; TextRec(f).BufSize:=Size; TextRec(f).BufPos:=0; TextRec(f).BufEnd:=0; End; Procedure SetTextLineEnding(Var f:Text; Ending:string); Begin TextRec(F).LineEnd:=Ending; End; Function fpc_get_input:PText;compilerproc; begin fpc_get_input:=@Input; end; Function fpc_get_output:PText;compilerproc; begin fpc_get_output:=@Output; end; {***************************************************************************** Write(Ln) *****************************************************************************} Procedure fpc_WriteBuffer(var f:Text;const b;len:SizeInt);[Public,Alias:'FPC_WRITEBUFFER']; var p : pchar; left, idx : SizeInt; begin p:=pchar(@b); idx:=0; left:=TextRec(f).BufSize-TextRec(f).BufPos; while len>left do begin move(p[idx],TextRec(f).Bufptr^[TextRec(f).BufPos],left); dec(len,left); inc(idx,left); inc(TextRec(f).BufPos,left); FileFunc(TextRec(f).InOutFunc)(TextRec(f)); left:=TextRec(f).BufSize-TextRec(f).BufPos; end; move(p[idx],TextRec(f).Bufptr^[TextRec(f).BufPos],len); inc(TextRec(f).BufPos,len); end; Procedure fpc_WriteBlanks(var f:Text;len:longint);[Public,Alias:'FPC_WRITEBLANKS']; var left : longint; begin left:=TextRec(f).BufSize-TextRec(f).BufPos; while len>left do begin FillChar(TextRec(f).Bufptr^[TextRec(f).BufPos],left,' '); dec(len,left); inc(TextRec(f).BufPos,left); FileFunc(TextRec(f).InOutFunc)(TextRec(f)); left:=TextRec(f).BufSize-TextRec(f).BufPos; end; FillChar(TextRec(f).Bufptr^[TextRec(f).BufPos],len,' '); inc(TextRec(f).BufPos,len); end; Procedure fpc_Write_End(var f:Text);[Public,Alias:'FPC_WRITE_END']; iocheck; compilerproc; begin if TextRec(f).FlushFunc<>nil then FileFunc(TextRec(f).FlushFunc)(TextRec(f)); end; Procedure fpc_Writeln_End(var f:Text);[Public,Alias:'FPC_WRITELN_END']; iocheck; compilerproc; begin If InOutRes <> 0 then exit; case TextRec(f).mode of fmOutput { fmAppend gets changed to fmOutPut in do_open (JM) }: begin { Write EOL } fpc_WriteBuffer(f,TextRec(f).LineEnd[1],length(TextRec(f).LineEnd)); { Flush } if TextRec(f).FlushFunc<>nil then FileFunc(TextRec(f).FlushFunc)(TextRec(f)); end; fmInput: InOutRes:=105 else InOutRes:=103; end; end; Procedure fpc_Write_Text_ShortStr(Len : Longint;var f : Text;const s : String); iocheck; [Public,Alias:'FPC_WRITE_TEXT_SHORTSTR']; compilerproc; Begin If (InOutRes<>0) then exit; case TextRec(f).mode of fmOutput { fmAppend gets changed to fmOutPut in do_open (JM) }: begin If Len>Length(s) Then fpc_WriteBlanks(f,Len-Length(s)); fpc_WriteBuffer(f,s[1],Length(s)); end; fmInput: InOutRes:=105 else InOutRes:=103; end; End; { provide local access to write_str } procedure Write_Str(Len : Longint;var f : Text;const s : String); iocheck; [external name 'FPC_WRITE_TEXT_SHORTSTR']; Procedure fpc_Write_Text_Pchar_as_Array(Len : Longint;var f : Text;const s : array of char; zerobased: boolean = true); iocheck; [Public,Alias:'FPC_WRITE_TEXT_PCHAR_AS_ARRAY']; compilerproc; var ArrayLen : longint; p : pchar; Begin If (InOutRes<>0) then exit; case TextRec(f).mode of fmOutput { fmAppend gets changed to fmOutPut in do_open (JM) }: begin p:=pchar(@s); if (zerobased) then begin { can't use StrLen, since that one could try to read past the end } { of the heap (JM) } ArrayLen:=IndexByte(p^,high(s)+1,0); { IndexByte returns -1 if not found (JM) } if ArrayLen = -1 then ArrayLen := high(s)+1; end else ArrayLen := high(s)+1; If Len>ArrayLen Then fpc_WriteBlanks(f,Len-ArrayLen); fpc_WriteBuffer(f,p^,ArrayLen); end; fmInput: InOutRes:=105 else InOutRes:=103; end; End; Procedure fpc_Write_Text_PChar_As_Pointer(Len : Longint;var f : Text;p : PChar); iocheck; [Public,Alias:'FPC_WRITE_TEXT_PCHAR_AS_POINTER']; compilerproc; var PCharLen : longint; Begin If (p=nil) or (InOutRes<>0) then exit; case TextRec(f).mode of fmOutput { fmAppend gets changed to fmOutPut in do_open (JM) }: begin PCharLen:=StrLen(p); If Len>PCharLen Then fpc_WriteBlanks(f,Len-PCharLen); fpc_WriteBuffer(f,p^,PCharLen); end; fmInput: InOutRes:=105 else InOutRes:=103; end; End; Procedure fpc_Write_Text_AnsiStr (Len : Longint; Var f : Text; const S : AnsiString); iocheck; [Public,alias:'FPC_WRITE_TEXT_ANSISTR']; compilerproc; { Writes a AnsiString to the Text file T } var SLen : longint; begin If (InOutRes<>0) then exit; case TextRec(f).mode of fmOutput { fmAppend gets changed to fmOutPut in do_open (JM) }: begin SLen:=Length(s); If Len>SLen Then fpc_WriteBlanks(f,Len-SLen); if slen > 0 then fpc_WriteBuffer(f,PChar(S)^,SLen); end; fmInput: InOutRes:=105 else InOutRes:=103; end; end; Procedure fpc_Write_Text_WideStr (Len : Longint; Var f : Text; const S : WideString); iocheck; [Public,alias:'FPC_WRITE_TEXT_WIDESTR']; compilerproc; { Writes a WideString to the Text file T } var SLen : longint; a: ansistring; begin If (pointer(S)=nil) or (InOutRes<>0) then exit; case TextRec(f).mode of fmOutput { fmAppend gets changed to fmOutPut in do_open (JM) }: begin SLen:=Length(s); If Len>SLen Then fpc_WriteBlanks(f,Len-SLen); a:=s; { length(a) can be > slen, e.g. after utf-16 -> utf-8 } fpc_WriteBuffer(f,pchar(a)^,length(a)); end; fmInput: InOutRes:=105 else InOutRes:=103; end; end; Procedure fpc_Write_Text_SInt(Len : Longint;var t : Text;l : ValSInt); iocheck; [Public,Alias:'FPC_WRITE_TEXT_SINT']; compilerproc; var s : String; Begin If (InOutRes<>0) then exit; Str(l,s); Write_Str(Len,t,s); End; Procedure fpc_Write_Text_UInt(Len : Longint;var t : Text;l : ValUInt); iocheck; [Public,Alias:'FPC_WRITE_TEXT_UINT']; compilerproc; var s : String; Begin If (InOutRes<>0) then exit; Str(L,s); Write_Str(Len,t,s); End; {$ifndef CPU64} procedure fpc_write_text_qword(len : longint;var t : text;q : qword); iocheck; [public,alias:'FPC_WRITE_TEXT_QWORD']; compilerproc; var s : string; begin if (InOutRes<>0) then exit; str(q,s); write_str(len,t,s); end; procedure fpc_write_text_int64(len : longint;var t : text;i : int64); iocheck; [public,alias:'FPC_WRITE_TEXT_INT64']; compilerproc; var s : string; begin if (InOutRes<>0) then exit; str(i,s); write_str(len,t,s); end; {$endif CPU64} {$ifndef FPUNONE} Procedure fpc_Write_Text_Float(rt,fixkomma,Len : Longint;var t : Text;r : ValReal); iocheck; [Public,Alias:'FPC_WRITE_TEXT_FLOAT']; compilerproc; var s : String; Begin If (InOutRes<>0) then exit; Str_real(Len,fixkomma,r,treal_type(rt),s); Write_Str(Len,t,s); End; {$endif} procedure fpc_write_text_enum(typinfo,ord2strindex:pointer;len:sizeint;var t:text;ordinal:longint); iocheck; [Public,Alias:'FPC_WRITE_TEXT_ENUM']; compilerproc; type Ptypeinfo=^Ttypeinfo; Ttypeinfo=packed record kind:byte; name:shortstring; end; Penuminfo=^Tenuminfo; Tenuminfo={$ifndef FPC_REQUIRES_PROPER_ALIGNMENT}packed{$endif}record ordtype:byte; minvalue, maxvalue:longint; basetype:pointer; namelist:shortstring; end; Tsorted_array={$ifndef FPC_REQUIRES_PROPER_ALIGNMENT}packed{$endif}record o:longint; s:Pstring; end; var p:Pstring; l,h,m,offset:cardinal; sorted_array:^Tsorted_array; s:string; begin if textrec(t).mode<>fmoutput then begin if textrec(t).mode=fminput then inoutres:=105 else inoutres:=103; exit; end; if Pcardinal(ord2strindex)^=0 then begin {The compiler did generate a lookup table.} offset:=2+length(Ptypeinfo(typinfo)^.name); {$ifdef FPC_REQUIRES_PROPER_ALIGNMENT} offset:=align(offset, sizeof(ptrint)); {$endif} with Penuminfo(Pbyte(typinfo)+offset)^ do begin if (ordinalmaxvalue) then begin inoutres:=107; {Invalid ordinal value for this enum.} exit; end; dec(ordinal,minvalue); end; {Get the address of the string.} {$ifdef FPC_REQUIRES_PROPER_ALIGNMENT} p:=Pshortstring((PPpointer(ord2strindex+align(sizeof(longint), sizeof(ptrint)))+ordinal)^); {$else} p:=Pshortstring((PPpointer(ord2strindex+sizeof(longint))+ordinal)^); {$endif} if p=nil then begin inoutres:=107; {Invalid ordinal value for this enum.} exit; end; s:=p^; end else begin {The compiler did generate a sorted array of (ordvalue,Pstring) tuples.} sorted_array:=pointer(Pcardinal(ord2strindex)+2); {Use a binary search to get the string.} l:=0; h:=(Pcardinal(ord2strindex)+1)^-1; repeat m:=(l+h) div 2; if ordinal>sorted_array[m].o then l:=m+1 else if ordinalh then begin inoutres:=107; {Invalid ordinal value for this enum.} exit; end; until false; s:=sorted_array[m].s^; end; fpc_writeBuffer(t,s[1],length(s)); {Pad the string with spaces if necessary.} if len>length(s) then fpc_writeblanks(t,len-length(s)); end; {$ifdef FPC_HAS_STR_CURRENCY} Procedure fpc_Write_Text_Currency(fixkomma,Len : Longint;var t : Text;c : Currency); iocheck; [Public,Alias:'FPC_WRITE_TEXT_CURRENCY']; compilerproc; var s : String; Begin If (InOutRes<>0) then exit; str(c:Len:fixkomma,s); Write_Str(Len,t,s); End; {$endif FPC_HAS_STR_CURRENCY} Procedure fpc_Write_Text_Boolean(Len : Longint;var t : Text;b : Boolean); iocheck; [Public,Alias:'FPC_WRITE_TEXT_BOOLEAN']; compilerproc; Begin If (InOutRes<>0) then exit; { Can't use array[boolean] because b can be >0 ! } if b then Write_Str(Len,t,'TRUE') else Write_Str(Len,t,'FALSE'); End; Procedure fpc_Write_Text_Char(Len : Longint;var t : Text;c : Char); iocheck; [Public,Alias:'FPC_WRITE_TEXT_CHAR']; compilerproc; Begin If (InOutRes<>0) then exit; if (TextRec(t).mode<>fmOutput) Then begin if TextRec(t).mode=fmClosed then InOutRes:=103 else InOutRes:=105; exit; end; If Len>1 Then fpc_WriteBlanks(t,Len-1); If TextRec(t).BufPos>=TextRec(t).BufSize Then FileFunc(TextRec(t).InOutFunc)(TextRec(t)); TextRec(t).Bufptr^[TextRec(t).BufPos]:=c; Inc(TextRec(t).BufPos); End; Procedure fpc_Write_Text_WideChar(Len : Longint;var t : Text;c : WideChar); iocheck; [Public,Alias:'FPC_WRITE_TEXT_WIDECHAR']; compilerproc; var a : ansistring; Begin If (InOutRes<>0) then exit; if (TextRec(t).mode<>fmOutput) Then begin if TextRec(t).mode=fmClosed then InOutRes:=103 else InOutRes:=105; exit; end; If Len>1 Then fpc_WriteBlanks(t,Len-1); If TextRec(t).BufPos>=TextRec(t).BufSize Then FileFunc(TextRec(t).InOutFunc)(TextRec(t)); { a widechar can be translated into more than a single ansichar } a:=c; fpc_WriteBuffer(t,pchar(a)^,length(a)); End; {***************************************************************************** Read(Ln) *****************************************************************************} Function NextChar(var f:Text;var s:string):Boolean; begin NextChar:=false; if (TextRec(f).BufPos#26) then begin if length(s)=TextRec(f).BufEnd Then FileFunc(TextRec(f).InOutFunc)(TextRec(f)); NextChar:=true; end; end; Function IgnoreSpaces(var f:Text):Boolean; { Removes all leading spaces,tab,eols from the input buffer, returns true if the buffer is empty } var s : string; begin s:=''; IgnoreSpaces:=false; { Return false when already at EOF } if (TextRec(f).BufPos>=TextRec(f).BufEnd) then exit; (* Check performed separately to avoid accessing memory outside buffer *) if CtrlZMarksEOF and (TextRec(f).Bufptr^[TextRec(f).BufPos]=#26) then exit; while (TextRec(f).Bufptr^[TextRec(f).BufPos] <= ' ') do begin if not NextChar(f,s) then exit; { EOF? } if (TextRec(f).BufPos>=TextRec(f).BufEnd) then break; if CtrlZMarksEOF and (TextRec(f).Bufptr^[TextRec(f).BufPos]=#26) then break; end; IgnoreSpaces:=true; end; procedure ReadNumeric(var f:Text;var s:string); { Read numeric input, if buffer is empty then return True } begin repeat if not NextChar(f,s) then exit; until (length(s)=high(s)) or (TextRec(f).BufPtr^[TextRec(f).BufPos] <= ' '); end; function CheckRead(var f:Text):Boolean; begin CheckRead:=False; { Check error and if file is open and load buf if empty } If (InOutRes<>0) then exit; if (TextRec(f).mode<>fmInput) Then begin case TextRec(f).mode of fmOutPut,fmAppend: InOutRes:=104; else InOutRes:=103; end; exit; end; if TextRec(f).BufPos>=TextRec(f).BufEnd Then FileFunc(TextRec(f).InOutFunc)(TextRec(f)); CheckRead:=True; end; Procedure fpc_Read_End(var f:Text);[Public,Alias:'FPC_READ_END']; iocheck; compilerproc; begin if TextRec(f).FlushFunc<>nil then FileFunc(TextRec(f).FlushFunc)(TextRec(f)); end; Procedure fpc_ReadLn_End(var f : Text);[Public,Alias:'FPC_READLN_END']; iocheck; compilerproc; var prev: char; Begin If not CheckRead(f) then exit; if (TextRec(f).BufPos>=TextRec(f).BufEnd) then { Flush if set } begin if (TextRec(f).FlushFunc<>nil) then FileFunc(TextRec(f).FlushFunc)(TextRec(f)); exit; end; if CtrlZMarksEOF and (TextRec (F).BufPtr^ [TextRec (F).BufPos] = #26) then Exit; repeat prev := TextRec(f).BufPtr^[TextRec(f).BufPos]; inc(TextRec(f).BufPos); { no system uses #10#13 as line seperator (#10 = *nix, #13 = Mac, } { #13#10 = Dos), so if we've got #10, we can safely exit } if prev = #10 then exit; {$ifdef MACOS} if prev = #13 then {StdInput on macos never have dos line ending, so this is safe.} if TextRec(f).Handle = StdInputHandle then exit; {$endif MACOS} if TextRec(f).BufPos>=TextRec(f).BufEnd Then begin FileFunc(TextRec(f).InOutFunc)(TextRec(f)); if (TextRec(f).BufPos>=TextRec(f).BufEnd) then { Flush if set } begin if (TextRec(f).FlushFunc<>nil) then FileFunc(TextRec(f).FlushFunc)(TextRec(f)); exit; end; end; if CtrlZMarksEOF and (TextRec (F).BufPtr^ [TextRec (F).BufPos] = #26) then Exit; if (prev=#13) then { is there also a #10 after it? } begin if (TextRec(f).BufPtr^[TextRec(f).BufPos]=#10) then { yes, skip that one as well } inc(TextRec(f).BufPos); exit; end; until false; End; Function ReadPCharLen(var f:Text;s:pchar;maxlen:longint):longint; var sPos,len : Longint; p,startp,maxp : pchar; end_of_string:boolean; Begin ReadPCharLen:=0; If not CheckRead(f) then exit; { Read maximal until Maxlen is reached } sPos:=0; end_of_string:=false; repeat If TextRec(f).BufPos>=TextRec(f).BufEnd Then begin FileFunc(TextRec(f).InOutFunc)(TextRec(f)); If TextRec(f).BufPos>=TextRec(f).BufEnd Then break; end; p:=@TextRec(f).Bufptr^[TextRec(f).BufPos]; if SPos+TextRec(f).BufEnd-TextRec(f).BufPos>MaxLen then maxp:=@TextRec(f).BufPtr^[TextRec(f).BufPos+MaxLen-SPos] else maxp:=@TextRec(f).Bufptr^[TextRec(f).BufEnd]; startp:=p; { find stop character } while p high(s)) then len := high(s); if (len <= high(s)) then s[len] := #0; End; Procedure fpc_Read_Text_AnsiStr(var f : Text;out s : AnsiString); iocheck; [Public,Alias:'FPC_READ_TEXT_ANSISTR']; compilerproc; var slen,len : SizeInt; Begin slen:=0; Repeat // SetLength will reallocate the length. SetLength(S,slen+255); len:=ReadPCharLen(f,pchar(Pointer(S)+slen),255); inc(slen,len); Until len<255; // Set actual length SetLength(S,Slen); End; procedure fpc_Read_Text_Char(var f : Text; out c: char); iocheck; [Public,Alias:'FPC_READ_TEXT_CHAR'];compilerproc; Begin c:=#0; If not CheckRead(f) then exit; If TextRec(f).BufPos>=TextRec(f).BufEnd Then begin c := #26; exit; end; c:=TextRec(f).Bufptr^[TextRec(f).BufPos]; inc(TextRec(f).BufPos); end; Procedure fpc_Read_Text_SInt(var f : Text; out l : ValSInt); iocheck; [Public,Alias:'FPC_READ_TEXT_SINT']; compilerproc; var hs : String; code : longint; Begin l:=0; If not CheckRead(f) then exit; hs:=''; if IgnoreSpaces(f) then begin { When spaces were found and we are now at EOF, then we return 0 } if (TextRec(f).BufPos>=TextRec(f).BufEnd) then exit; if CtrlZMarksEOF and (TextRec(f).Bufptr^[TextRec(f).BufPos]=#26) then exit; ReadNumeric(f,hs); end; if (hs = '') then L := 0 else begin Val(hs,l,code); if Code <> 0 then InOutRes:=106; end; End; Procedure fpc_Read_Text_UInt(var f : Text; out u : ValUInt); iocheck; [Public,Alias:'FPC_READ_TEXT_UINT']; compilerproc; var hs : String; code : longint; Begin u:=0; If not CheckRead(f) then exit; hs:=''; if IgnoreSpaces(f) then begin { When spaces were found and we are now at EOF, then we return 0 } if (TextRec(f).BufPos>=TextRec(f).BufEnd) then exit; ReadNumeric(f,hs); end; if (hs = '') then u := 0 else begin val(hs,u,code); If code<>0 Then InOutRes:=106; end; End; {$ifndef FPUNONE} procedure fpc_Read_Text_Float(var f : Text; out v : ValReal); iocheck; [Public,Alias:'FPC_READ_TEXT_FLOAT']; compilerproc; var hs : string; code : Word; begin v:=0.0; If not CheckRead(f) then exit; hs:=''; if IgnoreSpaces(f) then begin { When spaces were found and we are now at EOF, then we return 0 } if (TextRec(f).BufPos>=TextRec(f).BufEnd) then exit; ReadNumeric(f,hs); end; val(hs,v,code); If code<>0 Then InOutRes:=106; end; {$endif} procedure fpc_read_text_enum(str2ordindex:pointer;var t:text;out ordinal:longint); iocheck; [Public,Alias:'FPC_READ_TEXT_ENUM'];compilerproc; var s:string; code:valsint; begin if not checkread(t) then exit; s:=''; if ignorespaces(t) then begin { When spaces were found and we are now at EOF, then we return 0 } if (TextRec(t).BufPos>=TextRec(t).BufEnd) then exit; ReadNumeric(t,s); end; ordinal:=fpc_val_enum_shortstr(str2ordindex,s,code); if code<>0 then InOutRes:=106; end; procedure fpc_Read_Text_Currency(var f : Text; out v : Currency); iocheck; [Public,Alias:'FPC_READ_TEXT_CURRENCY']; compilerproc; var hs : string; code : Word; begin {$ifdef FPUNONE} v:=0; {$else} v:=0.0; {$endif} If not CheckRead(f) then exit; hs:=''; if IgnoreSpaces(f) then begin { When spaces were found and we are now at EOF, then we return 0 } if (TextRec(f).BufPos>=TextRec(f).BufEnd) then exit; ReadNumeric(f,hs); end; val(hs,v,code); If code<>0 Then InOutRes:=106; end; {$ifndef cpu64} procedure fpc_Read_Text_QWord(var f : text; out q : qword); iocheck; [public,alias:'FPC_READ_TEXT_QWORD']; compilerproc; var hs : String; code : longint; Begin q:=0; If not CheckRead(f) then exit; hs:=''; if IgnoreSpaces(f) then begin { When spaces were found and we are now at EOF, then we return 0 } if (TextRec(f).BufPos>=TextRec(f).BufEnd) then exit; ReadNumeric(f,hs); end; val(hs,q,code); If code<>0 Then InOutRes:=106; End; procedure fpc_Read_Text_Int64(var f : text; out i : int64); iocheck; [public,alias:'FPC_READ_TEXT_INT64']; compilerproc; var hs : String; code : Longint; Begin i:=0; If not CheckRead(f) then exit; hs:=''; if IgnoreSpaces(f) then begin { When spaces were found and we are now at EOF, then we return 0 } if (TextRec(f).BufPos>=TextRec(f).BufEnd) then exit; ReadNumeric(f,hs); end; Val(hs,i,code); If code<>0 Then InOutRes:=106; End; {$endif CPU64} {***************************************************************************** WriteStr/ReadStr *****************************************************************************} const StrPtrIndex = 1; { leave space for 128 bit string pointers :) (used for writestr) } ShortStrLenIndex = 17; { how many bytes of the string have been processed already (used for readstr) } BytesReadIndex = 17; threadvar ReadWriteStrText: textrec; procedure WriteStrShort(var t: textrec); var str: pshortstring; newbytes, oldlen: longint; begin if (t.bufpos=0) then exit; str:=pshortstring(ppointer(@t.userdata[StrPtrIndex])^); newbytes:=t.BufPos; oldlen:=length(str^); if (oldlen+t.bufpos > t.userdata[ShortStrLenIndex]) then begin newbytes:=t.userdata[ShortStrLenIndex]-oldlen; {$ifdef writestr_iolencheck} // GPC only gives an io error if {$no-truncate-strings} is active // FPC does not have this setting (it never gives errors when a // a string expression is truncated) { "disk full" } inoutres:=101; {$endif} end; setlength(str^,length(str^)+newbytes); move(t.bufptr^,str^[oldlen+1],newbytes); t.bufpos:=0; end; procedure WriteStrAnsi(var t: textrec); var str: pansistring; oldlen: longint; begin if (t.bufpos=0) then exit; str:=pansistring(ppointer(@t.userdata[StrPtrIndex])^); oldlen:=length(str^); setlength(str^,oldlen+t.bufpos); move(t.bufptr^,str^[oldlen+1],t.bufpos); t.bufpos:=0; end; procedure WriteStrWide(var t: textrec); var temp: ansistring; str: pwidestring; begin if (t.bufpos=0) then exit; str:=pwidestring(ppointer(@t.userdata[StrPtrIndex])^); setlength(temp,t.bufpos); move(t.bufptr^,temp[1],t.bufpos); str^:=str^+temp; t.bufpos:=0; end; procedure SetupWriteStrCommon(out t: textrec); begin // initialise Assign(text(t),''); t.mode:=fmOutput; t.OpenFunc:=nil; t.CloseFunc:=nil; end; function fpc_SetupWriteStr_Shortstr(out s: shortstring): PText; compilerproc; begin setupwritestrcommon(ReadWriteStrText); PPointer(@ReadWriteStrText.userdata[StrPtrIndex])^:=@s; ReadWriteStrText.userdata[ShortStrLenIndex]:=high(s); setlength(s,0); ReadWriteStrText.InOutFunc:=@WriteStrShort; ReadWriteStrText.FlushFunc:=@WriteStrShort; result:=@ReadWriteStrText; end; function fpc_SetupWriteStr_Ansistr(out s: ansistring): PText; compilerproc; begin setupwritestrcommon(ReadWriteStrText); PPointer(@ReadWriteStrText.userdata[StrPtrIndex])^:=@s; // automatically done by out-semantics // setlength(s,0); ReadWriteStrText.InOutFunc:=@WriteStrAnsi; ReadWriteStrText.FlushFunc:=@WriteStrAnsi; result:=@ReadWriteStrText; end; function fpc_SetupWriteStr_Widestr(out s: widestring): PText; compilerproc; begin setupwritestrcommon(ReadWriteStrText); PPointer(@ReadWriteStrText.userdata[StrPtrIndex])^:=@s; // automatically done by out-semantics // setlength(s,0); ReadWriteStrText.InOutFunc:=@WriteStrWide; ReadWriteStrText.FlushFunc:=@WriteStrWide; result:=@ReadWriteStrText; end; procedure ReadAnsiStrFinal(var t: textrec); begin { finalise the temp ansistring } PAnsiString(@t.userdata[StrPtrIndex])^ := ''; end; procedure ReadStrCommon(var t: textrec; strdata: pchar; len: sizeint); var newbytes: sizeint; begin newbytes := len - PSizeInt(@t.userdata[BytesReadIndex])^; if (t.BufSize <= newbytes) then newbytes := t.BufSize; if (newbytes > 0) then begin move(strdata[PSizeInt(@t.userdata[BytesReadIndex])^],t.BufPtr^,newbytes); inc(PSizeInt(@t.userdata[BytesReadIndex])^,newbytes); end; t.BufEnd:=newbytes; t.BufPos:=0; end; procedure ReadStrAnsi(var t: textrec); var str: pansistring; begin str:=pansistring(@t.userdata[StrPtrIndex]); ReadStrCommon(t,@str^[1],length(str^)); end; procedure SetupReadStrCommon(out t: textrec); begin // initialise Assign(text(t),''); t.mode:=fmInput; t.OpenFunc:=nil; t.CloseFunc:=nil; PSizeInt(@t.userdata[BytesReadIndex])^:=0; end; function fpc_SetupReadStr_Ansistr(const s: ansistring): PText; [public, alias: 'FPC_SETUPREADSTR_ANSISTR']; compilerproc; begin setupreadstrcommon(ReadWriteStrText); { we need a reference, because 's' may be a temporary expression } PAnsiString(@ReadWriteStrText.userdata[StrPtrIndex])^:=s; ReadWriteStrText.InOutFunc:=@ReadStrAnsi; { this is called at the end, by fpc_read_end } ReadWriteStrText.FlushFunc:=@ReadAnsiStrFinal; result:=@ReadWriteStrText; end; function fpc_SetupReadStr_Ansistr_Intern(const s: ansistring): PText; [external name 'FPC_SETUPREADSTR_ANSISTR']; function fpc_SetupReadStr_Shortstr(const s: shortstring): PText; compilerproc; begin { the reason we convert the short string to ansistring, is because the semantics of readstr are defined as: ********************* Apart from the restrictions imposed by requirements given in this clause, the execution of readstr(e,v 1 ,...,v n ) where e denotes a string-expression and v 1 ,...,v n denote variable-accesses possessing the char-type (or a subrange of char-type), the integer-type (or a subrange of integer-type), the real-type, a fixed-string-type, or a variable-string-type, shall be equivalent to begin rewrite(f); writeln(f, e); reset(f); read(f, v 1 ,...,v n ) end ********************* This means that any side effects caused by the evaluation of v 1 .. v n must not affect the value of e (= our argument s) -> we need a copy of it. An ansistring is the easiest way to get a threadsafe copy, and allows us to use the other ansistring readstr helpers too. } result:=fpc_SetupReadStr_Ansistr_Intern(s); end; function fpc_SetupReadStr_Widestr(const s: widestring): PText; compilerproc; begin { we use an ansistring to avoid code duplication, and let the } { assignment convert the widestring to an equivalent ansistring } result:=fpc_SetupReadStr_Ansistr_Intern(s); end; {***************************************************************************** Initializing *****************************************************************************} procedure OpenStdIO(var f:text;mode,hdl:longint); begin Assign(f,''); TextRec(f).Handle:=hdl; TextRec(f).Mode:=mode; TextRec(f).Closefunc:=@FileCloseFunc; case mode of fmInput : TextRec(f).InOutFunc:=@FileReadFunc; fmOutput : begin TextRec(f).InOutFunc:=@FileWriteFunc; if Do_Isdevice(hdl) then TextRec(f).FlushFunc:=@FileWriteFunc; end; else HandleError(102); end; end;