{ $Id$ This file is part of the Free Pascal run time library. Copyright (c) 1999-2000 by the Free Pascal development team. Processor independent implementation for the system unit (adapted for intel i386.inc file) 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. **********************************************************************} {**************************************************************************** Primitives ****************************************************************************} type pstring = ^shortstring; {$ifndef FPC_SYSTEM_HAS_MOVE} procedure Move(const source;var dest;count:longint); type bytearray = array [0..maxlongint-1] of byte; var i,size : longint; begin if count <= 0 then exit; Dec(count); for i:=0 to count do bytearray(dest)[i]:=bytearray(source)[i]; end; {$endif not FPC_SYSTEM_HAS_MOVE} {$ifndef FPC_SYSTEM_HAS_FILLCHAR} Procedure FillChar(var x;count:longint;value:byte); type longintarray = array [0..maxlongint div 4] of longint; bytearray = array [0..maxlongint-1] of byte; var i,v : longint; begin if count <= 0 then exit; v := 0; v:=(value shl 8) or (value and $FF); v:=(v shl 16) or (v and $ffff); for i:=0 to (count div 4) -1 do longintarray(x)[i]:=v; for i:=(count div 4)*4 to count-1 do bytearray(x)[i]:=value; end; {$endif FPC_SYSTEM_HAS_FILLCHAR} {$ifndef FPC_SYSTEM_HAS_FILLBYTE} procedure FillByte (var x;count : longint;value : byte ); begin FillChar (X,Count,CHR(VALUE)); end; {$endif not FPC_SYSTEM_HAS_FILLBYTE} {$ifndef FPC_SYSTEM_HAS_FILLWORD} procedure fillword(var x;count : longint;value : word); type longintarray = array [0..maxlongint div 4] of longint; wordarray = array [0..maxlongint div 2] of word; var i,v : longint; begin if Count <= 0 then exit; v:=value*$10000+value; for i:=0 to (count div 2) -1 do longintarray(x)[i]:=v; for i:=(count div 2)*2 to count-1 do wordarray(x)[i]:=value; end; {$endif not FPC_SYSTEM_HAS_FILLWORD} {$ifndef FPC_SYSTEM_HAS_FILLDWORD} procedure FillDWord(var x;count : longint;value : DWord); type longintarray = array [0..maxlongint div 4] of longint; begin if count <= 0 then exit; while Count<>0 do begin { range checking must be disabled here } longintarray(x)[count-1]:=longint(value); Dec(count); end; end; {$endif FPC_SYSTEM_HAS_FILLDWORD} {$ifndef FPC_SYSTEM_HAS_INDEXCHAR} function IndexChar(Const buf;len:longint;b:char):longint; begin IndexChar:=IndexByte(Buf,Len,byte(B)); end; {$endif not FPC_SYSTEM_HAS_INDEXCHAR} {$ifndef FPC_SYSTEM_HAS_INDEXBYTE} function IndexByte(Const buf;len:longint;b:byte):longint; type bytearray = array [0..maxlongint-1] of byte; var I : longint; begin I:=0; while (bytearray(buf)[I]<>b) and (Ib) and (Ib) and (I0) and (@Buf1<>@Buf2) then begin while (bytearray(Buf1)[I]=bytearray(Buf2)[I]) and (I0 then I:=1 else if I<0 then I:=-1; end; end; CompareByte:=I; end; {$endif not FPC_SYSTEM_HAS_COMPAREBYTE} {$ifndef FPC_SYSTEM_HAS_COMPAREWORD} function CompareWord(Const buf1,buf2;len:longint):longint; type wordarray = array [0..maxlongint div 2] of word; var I,J : longint; begin I:=0; if (Len<>0) and (@Buf1<>@Buf2) then begin while (wordarray(Buf1)[I]=wordarray(Buf2)[I]) and (I0 then I:=1 else if I<0 then I:=-1; end; end; CompareWord:=I; end; {$endif not FPC_SYSTEM_HAS_COMPAREWORD} {$ifndef FPC_SYSTEM_HAS_COMPAREDWORD} function CompareDWord(Const buf1,buf2;len:longint):longint; type longintarray = array [0..maxlongint div 4] of longint; var I,J : longint; begin I:=0; if (Len<>0) and (@Buf1<>@Buf2) then begin while (longintarray(Buf1)[I]=longintarray(Buf2)[I]) and (I0 then I:=1 else if I<0 then I:=-1; end; end; CompareDWord:=I; end; {$endif ndef FPC_SYSTEM_HAS_COMPAREDWORD} {$ifndef FPC_SYSTEM_HAS_MOVECHAR0} procedure MoveChar0(Const buf1;var buf2;len:longint); var I : longint; begin if Len = 0 then exit; I:=IndexByte(Buf1,Len,0); if I<>-1 then Move(Buf1,Buf2,I) else Move(Buf1,Buf2,len); end; {$endif ndef FPC_SYSTEM_HAS_MOVECHAR0} {$ifndef FPC_SYSTEM_HAS_INDEXCHAR0} function IndexChar0(Const buf;len:longint;b:Char):longint; var I : longint; begin if Len<>0 then begin I:=IndexByte(Buf,Len,0); IndexChar0:=IndexByte(Buf,I,0); end else IndexChar0:=0; end; {$endif ndef FPC_SYSTEM_HAS_INDEXCHAR0} {$ifndef FPC_SYSTEM_HAS_COMPARECHAR0} function CompareChar0(Const buf1,buf2;len:longint):longint; type bytearray = array [0..maxlongint-1] of byte; Var i : longint; begin I:=0; if (Len<>0) and (@Buf1<>@Buf2) then begin while (I0) and (PByte(@buf2)[i]<>0)) and (pbyte(@Buf1)[I]=pbyte(@Buf2)[I]) do inc(I); if (I=Len) or (PByte(@Buf1)[i]=0) or (PByte(@buf2)[I]=0) then {No difference or 0 reached } I:=0 else begin I:=bytearray(Buf1)[I]-bytearray(Buf2)[I]; if I>0 then I:=1 else if I<0 then I:=-1; end; end; CompareChar0:=I; end; {$endif not FPC_SYSTEM_HAS_COMPARECHAR0} {**************************************************************************** Object Helpers ****************************************************************************} {$ifndef FPC_SYSTEM_HAS_FPC_HELP_CONSTRUCTOR} { Generic code does not set the register used for self ! So this needs to be done by the compiler after calling FPC_HELP_CONSTRUCTOR : generic allways means aa little less efficient (PM) } { I don't think we really need to save any registers here } { since this is called at the start of the constructor (CEC) } function fpc_help_constructor(var _self : pointer; var vmt : pointer; vmt_pos : cardinal) : pointer; [public,alias:'FPC_HELP_CONSTRUCTOR']; {$ifdef hascompilerproc} compilerproc; {$endif} type ppointer = ^pointer; pvmt = ^tvmt; tvmt = packed record size,msize : longint; parent : pointer; end; var objectsize : longint; vmtcopy : pointer; begin if vmt=nil then begin fpc_help_constructor:=_self; exit; end; vmtcopy:=vmt; objectsize:=pvmt(vmtcopy)^.size; if _self=nil then begin getmem(_self,objectsize); longint(vmt):=-1; { needed for fail } end; if _self<>nil then begin fillchar(_self^,objectsize,#0); ppointer(_self+vmt_pos)^:=vmtcopy; end; fpc_help_constructor:=_self; end; {$endif FPC_SYSTEM_HAS_FPC_HELP_CONSTRUCTOR} {$ifndef FPC_SYSTEM_HAS_FPC_HELP_DESTRUCTOR} procedure fpc_help_destructor(var _self : pointer; vmt : pointer; vmt_pos : cardinal);saveregisters;[public,alias:'FPC_HELP_DESTRUCTOR']; {$ifdef hascompilerproc} compilerproc; {$endif} type ppointer = ^pointer; pvmt = ^tvmt; tvmt = packed record size,msize : longint; parent : pointer; end; var objectsize : longint; begin if (_self=nil) then exit; if (pvmt(ppointer(_self+vmt_pos)^)^.size=0) or (pvmt(ppointer(_self+vmt_pos)^)^.size+pvmt(ppointer(_self+vmt_pos)^)^.msize<>0) then RunError(210); if (vmt = nil) then exit; objectsize:=pvmt(vmt)^.size; { reset vmt to nil for protection } ppointer(_self+vmt_pos)^:=nil; freemem(_self,objectsize); _self:=nil; end; {$endif FPC_SYSTEM_HAS_FPC_HELP_DESTRUCTOR} {$ifndef FPC_SYSTEM_HAS_FPC_HELP_FAIL} procedure fpc_help_fail(var _self : pointer; var vmt : pointer; vmt_pos : cardinal);safecall; [public,alias:'FPC_HELP_FAIL']; type ppointer = ^pointer; pvmt = ^tvmt; tvmt = packed record size,msize : longint; parent : pointer; end; var objectsize : longint; begin if vmt=nil then exit; if longint(vmt)=-1 then begin if (_self=nil) or (ppointer(_self+vmt_pos)^=nil) then HandleError(210) else begin ppointer(_self+vmt_pos)^:=nil; freemem(_self); _self:=nil; vmt:=nil; end; end else ppointer(_self+vmt_pos)^:=nil; _self := nil; end; {$endif FPC_SYSTEM_HAS_FPC_HELP_FAIL} {$ifndef FPC_SYSTEM_HAS_FPC_NEW_CLASS} { the constructor receives as first parameter a pointer } { to the vmt or nil, if called when class already instanciated } { RETURNS SELF } { IMPORTANT: SELF REGISTER should be pre-loaded before call to } { constructor for this to work! } function fpc_new_class(_vmt: pointer; _self : pointer):pointer;saveregisters;[public,alias:'FPC_NEW_CLASS']; {$ifdef hascompilerproc} compilerproc; {$endif} begin if _vmt <> nil then begin fpc_new_class := tclass(_vmt).NewInstance; end else begin { calling when class already instanciated } { then simply returna a boolean value <> 0 } fpc_new_class := _self; end; end; {$endif FPC_SYSTEM_HAS_FPC_NEW_CLASS} {$ifndef FPC_SYSTEM_HAS_FPC_DISPOSE_CLASS} procedure fpc_dispose_class(_self: tobject; flag : longint);saveregisters;[public,alias:'FPC_DISPOSE_CLASS']; begin if (_self <> nil) and (flag = 1) then _self.FreeInstance; end; {$endif ndef FPC_SYSTEM_HAS_FPC_DISPOSE_CLASS} {$ifndef FPC_SYSTEM_HAS_FPC_CHECK_OBJECT} procedure fpc_check_object(obj : pointer);saveregisters;[public,alias:'FPC_CHECK_OBJECT']; {$ifdef hascompilerproc} compilerproc; {$endif} type pvmt = ^tvmt; tvmt = packed record size,msize : longint; parent : pointer; end; begin (* if (vmt=nil) or (pvmt(vmt)^.size=0) or (pvmt(vmt)^.size+pvmt(vmt)^.msize<>0) then RunError(210);*) end; {$endif ndef FPC_SYSTEM_HAS_FPC_CHECK_OBJECT} { checks for a correct vmt pointer } { deeper check to see if the current object is } { really related to the true } {$ifndef FPC_SYSTEM_HAS_FPC_CHECK_OBJECT_EXT} procedure fpc_check_object_ext(vmt, expvmt : pointer);saveregisters;[public,alias:'FPC_CHECK_OBJECT_EXT']; {$ifdef hascompilerproc} compilerproc; {$endif} type pvmt = ^tvmt; tvmt = packed record size,msize : longint; parent : pointer; end; begin if (vmt=nil) or (pvmt(vmt)^.size=0) or (pvmt(vmt)^.size+pvmt(vmt)^.msize<>0) then RunError(210); while assigned(vmt) do if vmt=expvmt then exit else vmt:=pvmt(vmt)^.parent; RunError(219); end; {$endif not FPC_SYSTEM_HAS_FPC_CHECK_OBJECT_EXT} {**************************************************************************** String ****************************************************************************} {$ifndef FPC_SYSTEM_HAS_FPC_SHORTSTR_ASSIGN} function fpc_shortstr_to_shortstr(len:longint;const sstr:shortstring): shortstring;[public,alias:'FPC_SHORTSTR_TO_SHORTSTR']; {$ifdef hascompilerproc} compilerproc; {$endif} var slen : byte; begin { these are shortstrings, not pointers! (JM) if dstr=nil then exit; if sstr=nil then begin if dstr<>nil then pstring(dstr)^[0]:=#0; exit; end; } slen:=length(sstr); if slen 0 then move(sstr[0],result[0],len+1); end; {$ifdef interncopy} procedure fpc_shortstr_assign(len:longint;sstr,dstr:pointer);[public,alias:'FPC_SHORTSTR_ASSIGN']; {$ifdef HAS_COMPILER_PROC} compilerproc; {$endif} {$else} procedure fpc_shortstr_copy(len:longint;sstr,dstr:pointer);[public,alias:'FPC_SHORTSTR_COPY']; {$ifdef HAS_COMPILER_PROC} compilerproc; {$endif} {$endif} var slen : byte; type pstring = ^string; begin { these are shortstrings, not pointers! (JM) if dstr=nil then exit; if sstr=nil then begin if dstr<>nil then pstring(dstr)^[0]:=#0; exit; end; } slen:=length(pstring(sstr)^); if slen 0 then move(sstr^,dstr^,len+1); { already done by the move above (JM) pstring(dstr)^[0]:=chr(len); } end; {$endif ndef FPC_SYSTEM_HAS_FPC_SHORTSTR_ASSIGN} {$ifndef FPC_SYSTEM_HAS_FPC_SHORTSTR_CONCAT} { note: this routine is *DIFFERENT* from the routine in i386.inc and as such you } { cannot use it with the i386 compiler, unless you remove the } { ti386addnode.first_string method (JM) } function fpc_shortstr_concat(const s1,s2:shortstring): shortstring;[public,alias:'FPC_SHORTSTR_CONCAT']; {$ifdef hascompilerproc} compilerproc; {$endif} var s1l, s2l : byte; begin { these are shortstrings, they can't be nil! (JM) if (s1=nil) or (s2=nil) then exit; } s1l:=length(s1); s2l:=length(s2); if s1l+s2l>255 then s2l:=255-s1l; fpc_shortstr_concat := s1; move(s2[1],fpc_shortstr_concat[s1l+1],s2l); fpc_shortstr_concat[0]:=chr(s1l+s2l); end; {$endif ndef FPC_SYSTEM_HAS_FPC_SHORTSTR_CONCAT} {$ifndef FPC_SYSTEM_HAS_FPC_SHORTSTR_COMPARE} function fpc_shortstr_compare(const dstr,sstr:shortstring) : longint;[public,alias:'FPC_SHORTSTR_COMPARE']; {$ifdef hascompilerproc} compilerproc; {$endif} var s1,s2,max,i : byte; d : longint; begin s1:=length(dstr); s2:=length(sstr); if s10 then exit(1) else if d<0 then exit(-1); end; if s1>s2 then exit(1) else if s1255 then l:=255; if l>0 then move(p^,s[1],l); s[0]:=chr(l); fpc_pchar_to_shortstr := s; end; {$endif ndef FPC_SYSTEM_HAS_FPC_PCHAR_TO_SHORTSTR} { also add a strpas alias for internal use in the system unit (JM) } function strpas(p:pchar):shortstring; [external name 'FPC_PCHAR_TO_SHORTSTR']; { also add a strlen alias for internal use in the system unit (JM) } function strlen(p:pchar):longint; [external name 'FPC_PCHAR_LENGTH']; {$ifndef FPC_SYSTEM_HAS_FPC_CHARARRAY_TO_SHORTSTR} {$ifdef hascompilerproc} function fpc_chararray_to_shortstr(const arr: array of char):shortstring;[public,alias:'FPC_CHARARRAY_TO_SHORTSTR']; compilerproc; var l: longint; {$else hascompilerproc} function fpc_chararray_to_shortstr(p:pchar; l : longint):shortstring;[public,alias:'FPC_CHARARRAY_TO_SHORTSTR']; {$endif hascompilerproc} begin {$ifdef hascompilerproc} l := high(arr)+1; {$endif hascompilerproc} if l>=256 then l:=255 else if l<0 then l:=0; move(arr[0],fpc_chararray_to_shortstr[1],l); fpc_chararray_to_shortstr[0]:=chr(l); end; {$endif ndef FPC_SYSTEM_HAS_FPC_CHARARRAY_TO_SHORTSTR} {$ifdef hascompilerproc} {$ifndef FPC_SYSTEM_HAS_FPC_SHORTSTR_TO_CHARARRAY} { inside the compiler, the resulttype is modified to that of the actual } { chararray we're converting to (JM) } function fpc_shortstr_to_chararray(arraysize: longint; const src: ShortString): fpc_big_chararray;[public,alias: 'FPC_SHORTSTR_TO_CHARARRAY']; compilerproc; var len: longint; begin len := length(src); if len > arraysize then len := arraysize; { make sure we don't access char 1 if length is 0 (JM) } if len > 0 then move(src[1],fpc_shortstr_to_chararray[0],len); fillchar(fpc_shortstr_to_chararray[len],arraysize-len,0); end; {$endif FPC_SYSTEM_HAS_FPC_SHORTSTR_TO_CHARARRAY} {$else hascompilerproc} {$ifopt r+} {$define rangeon} {$r-} {$endif} {$ifndef FPC_SYSTEM_HAS_FPC_STR_TO_CHARARRAY} procedure fpc_str_to_chararray(strtyp, arraysize: longint; src,dest: pchar);[public,alias:'FPC_STR_TO_CHARARRAY']; {$ifdef hascompilerproc} compilerproc; {$endif} type plongint = ^longint; var len: longint; begin case strtyp of { shortstring } 0: begin len := byte(src[0]); inc(src); end; {$ifdef SUPPORT_ANSISTRING} { ansistring} 1: len := length(ansistring(pointer(src))); {$endif SUPPORT_ANSISTRING} { longstring } 2:; { widestring } 3: ; end; if len > arraysize then len := arraysize; { make sure we don't dereference src if it can be nil (JM) } if len > 0 then move(src^,dest^,len); fillchar(dest[len],arraysize-len,0); end; {$endif FPC_SYSTEM_HAS_FPC_STR_TO_CHARARRAY} {$ifdef rangeon} {$r+} {undef rangeon} {$endif rangeon} {$endif hascompilerproc} {$ifndef FPC_SYSTEM_HAS_FPC_PCHAR_LENGTH} function fpc_pchar_length(p:pchar):longint;[public,alias:'FPC_PCHAR_LENGTH']; {$ifdef hascompilerproc} compilerproc; {$endif} var i : longint; begin i:=0; while p[i]<>#0 do inc(i); exit(i); end; {$endif ndef FPC_SYSTEM_HAS_FPC_PCHAR_LENGTH} {$ifdef HASWIDESTRING} {$ifndef FPC_SYSTEM_HAS_FPC_PWIDECHAR_LENGTH} function fpc_pwidechar_length(p:pwidechar):longint;[public,alias:'FPC_PWIDECHAR_LENGTH']; {$ifdef hascompilerproc} compilerproc; {$endif} var i : longint; begin i:=0; while p[i]<>#0 do inc(i); exit(i); end; {$endif ndef FPC_SYSTEM_HAS_FPC_PWIDECHAR_LENGTH} {$endif HASWIDESTRING} {**************************************************************************** Caller/StackFrame Helpers ****************************************************************************} {$ifndef FPC_SYSTEM_HAS_GET_FRAME} {$error Get_frame must be defined for each processor } {$endif ndef FPC_SYSTEM_HAS_GET_FRAME} {$ifndef FPC_SYSTEM_HAS_GET_CALLER_ADDR} {$error Get_caller_addr must be defined for each processor } {$endif ndef FPC_SYSTEM_HAS_GET_CALLER_ADDR} {$ifndef FPC_SYSTEM_HAS_GET_CALLER_FRAME} {$error Get_caller_frame must be defined for each processor } {$endif ndef FPC_SYSTEM_HAS_GET_CALLER_FRAME} {**************************************************************************** Math ****************************************************************************} {$ifndef FPC_SYSTEM_HAS_ABS_LONGINT} function abs(l:longint):longint;{$ifdef SYSTEMINLINE}inline;{$endif}[internconst:in_const_abs]; begin if l<0 then abs:=-l else abs:=l; end; {$endif not FPC_SYSTEM_HAS_ABS_LONGINT} {$ifndef FPC_SYSTEM_HAS_ODD_LONGINT} function odd(l:longint):boolean;{$ifdef SYSTEMINLINE}inline;{$endif}[internconst:in_const_odd]; begin odd:=boolean(l and 1); end; {$endif ndef FPC_SYSTEM_HAS_ODD_LONGINT} {$ifndef FPC_SYSTEM_HAS_ODD_LONGWORD} function odd(l:longword):boolean;{$ifdef SYSTEMINLINE}inline;{$endif}[internconst:in_const_odd]; begin odd:=boolean(l and 1); end; {$endif ndef FPC_SYSTEM_HAS_ODD_LONGWORD} {$ifndef FPC_SYSTEM_HAS_ODD_INT64} function odd(l:int64):boolean;{$ifdef SYSTEMINLINE}inline;{$endif}[internconst:in_const_odd]; begin odd:=boolean(longint(l) and 1); end; {$endif ndef FPC_SYSTEM_HAS_ODD_INT64} {$ifndef FPC_SYSTEM_HAS_ODD_QWORD} function odd(l:qword):boolean;{$ifdef SYSTEMINLINE}inline;{$endif}[internconst:in_const_odd]; begin odd:=boolean(longint(l) and 1); end; {$endif ndef FPC_SYSTEM_HAS_ODD_QWORD} {$ifndef FPC_SYSTEM_HAS_SQR_LONGINT} function sqr(l:longint):longint;{$ifdef SYSTEMINLINE}inline;{$endif}[internconst:in_const_sqr]; begin sqr:=l*l; end; {$endif ndef FPC_SYSTEM_HAS_SQR_LONGINT} {$ifndef FPC_SYSTEM_HAS_ABS_INT64} function abs(l: Int64): Int64;{$ifdef SYSTEMINLINE}inline;{$endif}[internconst:in_const_abs]; begin if l < 0 then abs := -l else abs := l; end; {$endif ndef FPC_SYSTEM_HAS_ABS_INT64} {$ifndef FPC_SYSTEM_HAS_SQR_INT64} function sqr(l: Int64): Int64;{$ifdef SYSTEMINLINE}inline;{$endif}[internconst:in_const_sqr]; begin sqr := l*l; end; {$endif ndef FPC_SYSTEM_HAS_SQR_INT64} {$ifndef FPC_SYSTEM_HAS_SQR_QWORD} function sqr(l: QWord): QWord;{$ifdef SYSTEMINLINE}inline;{$endif}[internconst:in_const_sqr]; begin sqr := l*l; end; {$endif ndef FPC_SYSTEM_HAS_SQR_INT64} {$ifndef FPC_SYSTEM_HAS_SPTR} {$error Sptr must be defined for each processor } {$endif ndef FPC_SYSTEM_HAS_SPTR} {**************************************************************************** Str() ****************************************************************************} {$ifndef FPC_SYSTEM_HAS_INT_STR_LONGINT} procedure int_str(l : longint;var s : string); var value: longint; negative: boolean; begin negative := false; s:=''; { Workaround: } if l=$80000000 then begin s:='-2147483648'; exit; end; { handle case where l = 0 } if l = 0 then begin s:='0'; exit; end; If l < 0 then begin negative := true; value:=abs(l); end else value:=l; { handle non-zero case } while value>0 do begin s:=char((value mod 10)+ord('0'))+s; value := value div 10; end; if negative then s := '-' + s; end; {$endif ndef FPC_SYSTEM_HAS_INT_STR_LONGINT} {$ifndef FPC_SYSTEM_HAS_INT_STR_LONGWORD} procedure int_str(l : longword;var s : string); begin s:=''; if l = 0 then begin s := '0'; exit; end; while l>0 do begin s:=char(ord('0')+(l mod 10))+s; l:=l div 10; end; end; {$endif ndef FPC_SYSTEM_HAS_INT_STR_LONGWORD} {$ifndef FPC_SYSTEM_HAS_SYSRESETFPU} procedure SysResetFpu; begin { nothing todo } end; {$endif FPC_SYSTEM_HAS_SYSRESETFPU} { $Log$ Revision 1.44 2002-12-23 21:27:13 peter * fix wrong var names for shortstr_compare Revision 1.43 2002/10/20 11:51:54 carl * avoid crashes with negative len counts on fills/moves * movechar0 was wrong and did not do the behavior as described in docs Revision 1.42 2002/10/14 19:39:17 peter * threads unit added for thread support Revision 1.41 2002/10/12 20:32:41 carl * RunError 220 -> RunError 219 to be more consistent with as operator Revision 1.40 2002/10/10 16:08:50 florian + several widestring/pwidechar related helpers added Revision 1.39 2002/10/05 14:20:16 peter * fpc_pchar_length compilerproc and strlen alias Revision 1.38 2002/10/02 18:21:51 peter * Copy() changed to internal function calling compilerprocs * FPC_SHORTSTR_COPY renamed to FPC_SHORTSTR_ASSIGN because of the new copy functions Revision 1.37 2002/09/27 21:10:40 carl * fix 2GB limit problem Revision 1.36 2002/09/13 19:13:06 carl * FPC_HELP_FAIL : reset _self to nil Revision 1.35 2002/09/10 21:29:44 jonas * added some missing compilerproc directives Revision 1.34 2002/09/07 21:08:42 carl * cardinal -> longword - remove generic boundcheck (does not exist in v1.1) Revision 1.33 2002/09/07 15:07:45 peter * old logs removed and tabs fixed Revision 1.32 2002/08/19 19:34:02 peter * SYSTEMINLINE define that will add inline directives for small functions and wrappers. This will be defined automaticly when the compiler defines the HASINLINE directive Revision 1.31 2002/07/29 21:28:16 florian * several fixes to get further with linux/ppc system unit compilation Revision 1.30 2002/07/29 09:23:11 jonas * fixed some datastructures > 2GB Revision 1.29 2002/07/28 21:39:28 florian * made abs a compiler proc if it is generic Revision 1.28 2002/07/28 20:43:47 florian * several fixes for linux/powerpc * several fixes to MT Revision 1.27 2002/06/16 08:19:03 carl * bugfix of FPC_NEW_CLASS (was not creating correct instance) + FPC_HELP_FAIL_CLASS now tested (no longer required) Revision 1.25 2002/05/16 19:58:05 carl * generic constructor implemented Revision 1.24 2002/03/30 13:08:54 carl * memory corruption bugfix in FPC_HELP_CONSTRUCTOR if object cannot be allocated Revision 1.23 2002/01/25 17:38:55 peter * add internconst for all overloaded types of Odd/Abs/Sqr Revision 1.22 2002/01/24 12:33:53 jonas * adapted ranges of native types to int64 (e.g. high cardinal is no longer longint($ffffffff), but just $fffffff in psystem) * small additional fix in 64bit rangecheck code generation for 32 bit processors * adaption of ranges required the matching talgorithm used for selecting which overloaded procedure to call to be adapted. It should now always select the closest match for ordinal parameters. + inttostr(qword) in sysstr.inc/sysstrh.inc + abs(int64), sqr(int64), sqr(qword) in systemh.inc/generic.inc (previous fixes were required to be able to add them) * is_in_limit() moved from ncal to types unit, should always be used instead of direct comparisons of low/high values of orddefs because qword is a special case }