freepascal.compiler/rtl/inc/generic.inc

{
    $Id$
    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;

{$ifndef FPC_SYSTEM_HAS_MOVE}
procedure Move(const source;var dest;count:longint);
type
  bytearray    = array [0..maxlongint] of byte;
var
  i,size : longint;
begin
  Dec(count);
  for i:=0 to count do
         bytearray(dest)[i]:=bytearray(source)[i];
end;
{$endif ndef FPC_SYSTEM_HAS_MOVE}


{$ifndef FPC_SYSTEM_HAS_FILLCHAR}
Procedure FillChar(var x;count:longint;value:byte);
type
  longintarray = array [0..maxlongint] of longint;
  bytearray    = array [0..maxlongint] 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 ndef 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 ndef FPC_SYSTEM_HAS_FILLBYTE}


{$ifndef FPC_SYSTEM_HAS_FILLWORD}
procedure fillword(var x;count : longint;value : word);
type
  longintarray = array [0..maxlongint] of longint;
  wordarray    = array [0..maxlongint] of word;
var
  i,v : longint;
begin
  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 ndef FPC_SYSTEM_HAS_FILLWORD}


{$ifndef FPC_SYSTEM_HAS_FILLDWORD}
procedure FillDWord(var x;count : longint;value : DWord);
type
  longintarray = array [0..maxlongint] of longint;
var
  I : longint;
begin
  if Count<>0 then
   begin
     I:=Count;
     while I<>0 do
      begin
        longintarray(X)[I-1]:=Value;
        Dec(I);
      end;
   end;
end;
{$endif ndef 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 ndef FPC_SYSTEM_HAS_INDEXCHAR}


{$ifndef FPC_SYSTEM_HAS_INDEXBYTE}
function IndexByte(Const buf;len:longint;b:byte):longint;
type
  bytearray    = array [0..maxlongint] of byte;
var
  I : longint;
begin
  I:=0;
  while (bytearray(buf)[I]<>b) and (I<Len) do
   inc(I);
  if (i=Len) then
   i:=-1;                                {Can't use 0, since it is a possible value}
  IndexByte:=I;
end;
{$endif ndef FPC_SYSTEM_HAS_INDEXBYTE}


{$ifndef FPC_SYSTEM_HAS_INDEXWORD}
function Indexword(Const buf;len:longint;b:word):longint;
type
  wordarray    = array [0..maxlongint] of word;
var
  I : longint;
begin
  I:=0;
  while (wordarray(buf)[I]<>b) and (I<Len) do
   inc(I);
  if (i=Len) then
   i:=-1;           {Can't use 0, since it is a possible value for index}
  Indexword:=I;
end;
{$endif ndef FPC_SYSTEM_HAS_INDEXWORD}


{$ifndef FPC_SYSTEM_HAS_INDEXDWORD}
function IndexDWord(Const buf;len:longint;b:DWord):longint;
type
  longintarray = array [0..maxlongint] of longint;
var
  I : longint;
begin
  I:=0;
  while (longintarray(buf)[I]<>b) and (I<Len) do inc(I);
  if (i=Len) then
   i:=-1;           {Can't use 0, since it is a possible value for index}
  IndexDWord:=I;
end;
{$endif ndef FPC_SYSTEM_HAS_INDEXDWORD}


{$ifndef FPC_SYSTEM_HAS_COMPARECHAR}
function CompareChar(Const buf1,buf2;len:longint):longint;
begin
  CompareChar:=CompareByte(buf1,buf2,len);
end;
{$endif ndef FPC_SYSTEM_HAS_COMPARECHAR}


{$ifndef FPC_SYSTEM_HAS_COMPAREBYTE}
function CompareByte(Const buf1,buf2;len:longint):longint;
type
  bytearray    = array [0..maxlongint] of byte;
var
  I,J : longint;
begin
  I:=0;
  if (Len<>0) and (@Buf1<>@Buf2) then
   begin
     while (bytearray(Buf1)[I]=bytearray(Buf2)[I]) and (I<Len) do
      inc(I);
     if I=Len then  {No difference}
      I:=0
     else
      begin
        I:=bytearray(Buf1)[I]-bytearray(Buf2)[I];
        if I>0 then
         I:=1
        else
         if I<0 then
          I:=-1;
      end;
   end;
  CompareByte:=I;
end;
{$endif ndef FPC_SYSTEM_HAS_COMPAREBYTE}


{$ifndef FPC_SYSTEM_HAS_COMPAREWORD}
function CompareWord(Const buf1,buf2;len:longint):longint;
type
  wordarray    = array [0..maxlongint] of word;
var
  I,J : longint;
begin
  I:=0;
  if (Len<>0) and (@Buf1<>@Buf2) then
   begin
     while (wordarray(Buf1)[I]=wordarray(Buf2)[I]) and (I<Len) do
      inc(I);
     if I=Len then  {No difference}
      I:=0
     else
      begin
        I:=wordarray(Buf1)[I]-wordarray(Buf2)[I];
        if I>0 then
         I:=1
        else
         if I<0 then
          I:=-1;
      end;
   end;
  CompareWord:=I;
end;
{$endif ndef FPC_SYSTEM_HAS_COMPAREWORD}


{$ifndef FPC_SYSTEM_HAS_COMPAREDWORD}
function CompareDWord(Const buf1,buf2;len:longint):longint;
type
  longintarray    = array [0..maxlongint] of longint;
var
  I,J : longint;
begin
  I:=0;
  if (Len<>0) and (@Buf1<>@Buf2) then
   begin
     while (longintarray(Buf1)[I]=longintarray(Buf2)[I]) and (I<Len) do
      inc(I);
     if I=Len then  {No difference}
      I:=0
     else
      begin
        I:=longintarray(Buf1)[I]-longintarray(Buf2)[I];
        if I>0 then
         I:=1
        else
         if I<0 then
          I:=-1;
      end;
   end;
  CompareDWord:=I;
end;
{$endif ndef FPC_SYSTEM_HAS_COMPAREDWORD}


{$ifndef FPC_SYSTEM_HAS_MOVECHAR0}
procedure MoveChar0(Const buf1;var buf2;len:longint);
var
  I : longint;
begin
  if Len<> 0 then
   begin
     I:=IndexByte(Buf1,Len,0);
     if I<>0 then
      Move(Buf1,Buf2,I);
   end;
end;
{$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] of byte;

Var i : longint;

begin
  I:=0;
  if (Len<>0) and (@Buf1<>@Buf2) then
   begin
     while (I<Len) And
           ((Pbyte(@Buf1)[i]<>0) 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 ndef 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 ndef 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 ndef FPC_SYSTEM_HAS_FPC_HELP_DESTRUCTOR}

{$ifndef FPC_SYSTEM_HAS_FPC_HELP_FAIL}
procedure fpc_help_fail(var _self : pointer; var vmt : pointer; vmt_pos : cardinal);safecall; [public,alias:'FPC_HELP_FAIL'];
   type
     ppointer = ^pointer;
     pvmt = ^tvmt;
     tvmt = packed record
        size,msize : longint;
        parent : pointer;
        end;
   var
      objectsize : longint;
begin
   if vmt=nil then
     exit;
   if longint(vmt)=-1 then
     begin
       if (_self=nil) or (ppointer(_self+vmt_pos)^=nil) then
         HandleError(210)
       else
         begin
           ppointer(_self+vmt_pos)^:=nil;
           freemem(_self);
           _self:=nil;
           vmt:=nil;
         end;
     end
   else
     ppointer(_self+vmt_pos)^:=nil;
end;
{$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; {$endif}
 begin
   if _vmt <> nil then
     begin
       fpc_new_class := TObject.NewInstance;
     end
   else
     begin
       { calling when class already instanciated }
       fpc_new_class := _self;
     end;
 end;
{$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(vmt : 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(220);
end;

{$endif ndef FPC_SYSTEM_HAS_FPC_CHECK_OBJECT_EXT}


{****************************************************************************
                                 String
****************************************************************************}

{$ifndef FPC_SYSTEM_HAS_FPC_SHORTSTR_COPY}

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<len then
    len:=slen;
  { don't forget the length character }
  if len <> 0 then
    move(sstr[0],result[0],len+1);
end;

procedure fpc_shortstr_copy(len:longint;sstr,dstr:pointer);[public,alias:'FPC_SHORTSTR_COPY'];
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<len then
    len:=slen;
  { don't forget the length character }
  if len <> 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_COPY}

{$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'];
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 rightstr,leftstr:shortstring) : longint;[public,alias:'FPC_SHORTSTR_COMPARE']; {$ifdef hascompilerproc} compilerproc; {$endif}
var
   s1,s2,max,i : byte;
   d : longint;
begin
  s1:=length(rightstr);
  s2:=length(leftstr);
  if s1<s2 then
    max:=s1
  else
    max:=s2;
  for i:=1 to max do
    begin
     d:=byte(leftstr[i])-byte(rightstr[i]);
     if d>0 then
       exit(1)
     else if d<0 then
       exit(-1);
    end;
  if s1>s2 then
    exit(1)
  else if s1<s2 then
    exit(-1)
  else
    exit(0);
end;

{$endif ndef FPC_SYSTEM_HAS_FPC_SHORTSTR_COMPARE}

{$ifndef FPC_SYSTEM_HAS_FPC_PCHAR_TO_SHORTSTR}

function fpc_pchar_to_shortstr(p:pchar):shortstring;[public,alias:'FPC_PCHAR_TO_SHORTSTR']; {$ifdef hascompilerproc} compilerproc; {$endif}
var
  l : longint;
  s: shortstring;
begin
  if p=nil then
    l:=0
  else
    l:=strlen(p);
  if l>255 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'];

{$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_STRLEN}

function strlen(p:pchar):longint;
var i : longint;
begin
  i:=0;
  while p[i]<>#0 do inc(i);
  exit(i);
end;

{$endif ndef FPC_SYSTEM_HAS_STRLEN}

{****************************************************************************
                       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;[internconst:in_const_abs];
begin
   if l<0 then
     abs:=-l
   else
     abs:=l;
end;

{$endif ndef FPC_SYSTEM_HAS_ABS_LONGINT}

{$ifndef FPC_SYSTEM_HAS_ODD_LONGINT}

function odd(l:longint):boolean;[internconst:in_const_odd];
begin
   odd:=boolean(l and 1);
end;

{$endif ndef FPC_SYSTEM_HAS_ODD_LONGINT}

{$ifndef FPC_SYSTEM_HAS_ODD_CARDINAL}

function odd(l:cardinal):boolean;[internconst:in_const_odd];
begin
   odd:=boolean(l and 1);
end;

{$endif ndef FPC_SYSTEM_HAS_ODD_CARDINAL}


{$ifndef FPC_SYSTEM_HAS_ODD_INT64}

function odd(l:int64):boolean;[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;[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;[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;[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;[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;[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_CARDINAL}

procedure int_str(l : cardinal;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_CARDINAL}

{****************************************************************************
                               Bounds Check
****************************************************************************}

{$ifndef NOBOUNDCHECK}
{$ifndef FPC_SYSTEM_HAS_FPC_BOUNDCHECK}

procedure int_boundcheck(l : longint; range : pointer);[public,alias: 'FPC_BOUNDCHECK'];
  type
    prange = ^trange;
    trange = packed record
               min,max : longint;
             end;
begin
   if (l < prange(range)^.min) or
      (l > prange(range)^.max) then
     HandleError(201);
end;

{$endif ndef FPC_SYSTEM_HAS_FPC_BOUNDCHECK}
{$endif NOBOUNDCHECK}

{****************************************************************************
                                 IoCheck
****************************************************************************}

{
  $Log$
  Revision 1.26  2002-05-22 18:48:29  carl
  + generic FPC_HELP_FAIL
  + generic FPC_HELP_DESTRUCTOR instated (original from Pierre)
  + generic FPC_DISPOSE_CLASS

  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

  Revision 1.21  2001/09/03 13:27:43  jonas
    * compilerproc implementation of set addition/substraction/...
    * changed the declaration of some set helpers somewhat to accomodate the
      above change
    * i386 still uses the old code for comparisons of sets, because its
      helpers return the results in the flags
    * dummy tc_normal_2_small_set type conversion because I need the original
      resulttype of the set add nodes
    NOTE: you have to start a cycle with 1.0.5!

  Revision 1.20  2001/08/30 15:43:15  jonas
    * converted adding/comparing of strings to compileproc. Note that due
      to the way the shortstring helpers for i386 are written, they are
      still handled by the old code (reason: fpc_shortstr_compare returns
      results in the flags instead of in eax and fpc_shortstr_concat
      has wierd parameter conventions). The compilerproc stuff should work
      fine with the generic implementations though.
    * removed some nested comments warnings

  Revision 1.19  2001/08/29 19:49:04  jonas
    * some fixes in compilerprocs for chararray to string conversions
    * conversion from string to chararray is now also done via compilerprocs

  Revision 1.18  2001/08/28 13:24:47  jonas
    + compilerproc implementation of most string-related type conversions
    - removed all code from the compiler which has been replaced by
      compilerproc implementations (using (ifdef hascompilerproc) is not
      necessary in the compiler)

  Revision 1.17  2001/08/01 15:00:10  jonas
    + "compproc" helpers
    * renamed several helpers so that their name is the same as their
      "public alias", which should facilitate the conversion of processor
      specific code in the code generator to processor independent code
    * some small fixes to the val_ansistring and val_widestring helpers
      (always immediately exit if the source string is longer than 255
       chars)
    * fixed fpc_dynarray_high and fpc_dynarray_length if the dynarray is
      still nil (used to crash, now return resp -1 and 0)

  Revision 1.16  2001/07/31 19:36:51  peter
    * small cleanup of commented code (merged)

  Revision 1.15  2001/07/29 13:49:15  peter
    * m68k updates merged

  Revision 1.14  2001/07/08 21:00:18  peter
    * various widestring updates, it works now mostly without charset
      mapping supported

  Revision 1.13  2001/05/28 20:43:17  peter
    * more saveregisters added (merged)

  Revision 1.12  2001/05/18 22:59:59  peter
    * merged fixes branch fixes

  Revision 1.11  2001/05/16 17:44:25  jonas
    + odd() for cardinal, int64 and qword (merged)

  Revision 1.10  2001/05/09 19:57:07  peter
  *** empty log message ***

  Revision 1.9  2001/04/21 12:16:28  peter
    * int_str cardinal fix (merged)

  Revision 1.8  2001/04/13 18:06:28  peter
    * removed rtllite define

  Revision 1.7  2001/03/05 17:10:40  jonas
    * changed typecast in FPC_STR_TO_CHARARRAY so that no temp ansistring is
      generated anymore (merged)

  Revision 1.6  2001/03/03 12:41:22  jonas
    * simplified and optimized range checking code, FPC_BOUNDCHECK is no longer necessary

  Revision 1.5  2000/10/01 13:17:35  michael
  + Merged from fixbranch

  Revision 1.4  2000/08/09 11:29:01  jonas

  Revision 1.1.2.2  2000/10/01 13:14:50  michael
  + Corrected and (hopefully) improved compare0

  Revision 1.1.2.1  2000/08/09 11:21:32  jonas
    + FPC_STR_TO_CHARARRAY routine necessary for string -> chararray
      conversions fix (merged fropm fixes branch)

  Revision 1.3  2000/07/14 10:33:10  michael
  + Conditionals fixed

  Revision 1.2  2000/07/13 11:33:43  michael
  + removed logs

}