{ $Id$ 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. **********************************************************************} {**************************************************************************** Local types ****************************************************************************} { TextRec and FileRec are put in a separate file to make it available to other units without putting it explicitly in systemh. This way we keep TP compatibility, and the TextRec definition is available for everyone who needs it. } {$i filerec.inc} {$i textrec.inc} Procedure HandleError (Errno : Longint); forward; Procedure HandleErrorFrame (Errno : longint;frame : longint); forward; type FileFunc = Procedure(var t : TextRec); PByte = ^Byte; PWord = ^word; PDWord = ^DWord; PLongint = ^Longint; const { Random / Randomize constants } OldRandSeed : Cardinal = 0; InitialSeed : Boolean = TRUE; Seed2 : Cardinal = 0; Seed3 : Cardinal = 0; { For Error Handling.} ErrorBase : Longint = 0; { Used by the ansistrings and maybe also other things in the future } var emptychar : char;public name 'FPC_EMPTYCHAR'; {**************************************************************************** Routines which have compiler magic ****************************************************************************} {$I innr.inc} Function lo(i : Integer) : byte; [INTERNPROC: In_lo_Word]; Function lo(w : Word) : byte; [INTERNPROC: In_lo_Word]; Function lo(l : Longint) : Word; [INTERNPROC: In_lo_long]; Function lo(l : DWord) : Word; [INTERNPROC: In_lo_long]; Function hi(i : Integer) : byte; [INTERNPROC: In_hi_Word]; Function hi(w : Word) : byte; [INTERNPROC: In_hi_Word]; Function hi(l : Longint) : Word; [INTERNPROC: In_hi_long]; Function hi(l : DWord) : Word; [INTERNPROC: In_hi_long]; Function lo(q : QWord) : DWord; [INTERNPROC: In_lo_qword]; Function lo(i : Int64) : DWord; [INTERNPROC: In_lo_qword]; Function hi(q : QWord) : DWord; [INTERNPROC: In_hi_qword]; Function hi(i : Int64) : DWord; [INTERNPROC: In_hi_qword]; Function chr(b : byte) : Char; [INTERNPROC: In_chr_byte]; Function Length(s : string) : byte; [INTERNPROC: In_Length_string]; Function Length(c : char) : byte; [INTERNPROC: In_Length_string]; Procedure Reset(var f : TypedFile); [INTERNPROC: In_Reset_TypedFile]; Procedure Rewrite(var f : TypedFile); [INTERNPROC: In_Rewrite_TypedFile]; {**************************************************************************** Include processor specific routines ****************************************************************************} {$IFDEF I386} {$IFDEF M68K} {$Error Can't determine processor type !} {$ENDIF} {$I i386.inc} { Case dependent, don't change } {$ELSE} {$IFDEF M68K} {$I m68k.inc} { Case dependent, don't change } {$ELSE} {$Error Can't determine processor type !} {$ENDIF} {$ENDIF} { Include generic pascal only routines which are not defined in the processor specific include file } {$I generic.inc} {**************************************************************************** Set Handling ****************************************************************************} { Include set support which is processor specific} {$I set.inc} {**************************************************************************** Math Routines ****************************************************************************} {$ifndef RTLLITE} function Hi(b : byte): byte; begin Hi := b shr 4 end; function Lo(b : byte): byte; begin Lo := b and $0f end; Function swap (X : Word) : Word;[internconst:in_const_swap_word]; Begin swap:=(X and $ff) shl 8 + (X shr 8) End; Function Swap (X : Integer) : Integer;[internconst:in_const_swap_word]; Begin swap:=(X and $ff) shl 8 + (X shr 8) End; Function swap (X : Longint) : Longint;[internconst:in_const_swap_long]; Begin Swap:=(X and $ffff) shl 16 + (X shr 16) End; Function Swap (X : Cardinal) : Cardinal;[internconst:in_const_swap_long]; Begin Swap:=(X and $ffff) shl 16 + (X shr 16) End; Function Swap (X : QWord) : QWord; Begin Swap:=(X and $ffffffff) shl 32 + (X shr 32); End; Function swap (X : Int64) : Int64; Begin Swap:=(X and $ffffffff) shl 32 + (X shr 32); End; {$endif RTLLITE} { Include processor specific routines } {$I math.inc} {**************************************************************************** Subroutines for String handling ****************************************************************************} { Needs to be before RTTI handling } {$i sstrings.inc} {$i astrings.inc} {$ifdef haswidechar} {$i wstrings.inc} {$endif haswidechar} {**************************************************************************** Run-Time Type Information (RTTI) ****************************************************************************} {$i rtti.inc} { requires sstrings.inc for initval } {$I int64.inc} {**************************************************************************** Random function routines This implements a very long cycle random number generator by combining three independant generators. The technique was described in the March 1987 issue of Byte. Taken and modified with permission from the PCQ Pascal rtl code. ****************************************************************************} {$R-} {$Q-} Procedure NewSeed;Forward; Function Random : Extended; begin if (InitialSeed) OR (RandSeed <> OldRandSeed) then Begin { This is a pretty complicated affair } { Initially we must call NewSeed when RandSeed is initalized } { We must also call NewSeed each time RandSeed is reinitialized } { DO NOT CHANGE THE ORDER OF DECLARATIONS IN THIS BLOCK } { UNLESS YOU WANT RANDON TO CRASH OF COURSE (CEC) } InitialSeed:=FALSE; OldRandSeed:=RandSeed; NewSeed; end; Inc(RandSeed); RandSeed := (RandSeed * 706) mod 500009; OldRandSeed:=RandSeed; INC(Seed2); Seed2 := (Seed2 * 774) MOD 600011; INC(Seed3); Seed3 := (Seed3 * 871) MOD 765241; Random := frac(RandSeed/500009.0 + Seed2/600011.0 + Seed3/765241.0); end; Function internRandom(l : Cardinal) : Cardinal; begin if (InitialSeed) OR (RandSeed <> OldRandSeed) then Begin { This is a pretty complicated affair } { Initially we must call NewSeed when RandSeed is initalized } { We must also call NewSeed each time RandSeed is reinitialized } { DO NOT CHANGE THE ORDER OF DECLARATIONS IN THIS BLOCK } { UNLESS YOU WANT RANDOM TO CRASH OF COURSE (CEC) } InitialSeed:=FALSE; OldRandSeed:=RandSeed; NewSeed; end; Inc(RandSeed); RandSeed := (RandSeed * 998) mod 1000003; OldRandSeed:=RandSeed; if l<>0 then begin internRandom := RandSeed mod l; end else internRandom:=0; end; function random(l:cardinal): cardinal; begin random := trunc(random()*l); end; {$ifndef cardinalmulfixed} function random(l:longint): longint; begin random := trunc(random()*l); end; {$endif cardinalmulfixed} Procedure NewSeed; begin randseed := randseed mod 1000003; Seed2 := (internRandom(65000) * internRandom(65000)) mod 600011; Seed3 := (internRandom(65000) * internRandom(65000)) mod 765241; end; {**************************************************************************** Memory Management ****************************************************************************} {$ifndef RTLLITE} Function Ptr(sel,off : Longint) : pointer;[internconst:in_const_ptr]; Begin sel:=0; ptr:=pointer(off); End; Function CSeg : Word; Begin Cseg:=0; End; Function DSeg : Word; Begin Dseg:=0; End; Function SSeg : Word; Begin Sseg:=0; End; {$endif RTLLITE} {***************************************************************************** Directory support. *****************************************************************************} Procedure getdir(drivenr:byte;Var dir:ansistring); { this is needed to also allow ansistrings, the shortstring version is OS dependent } var s : shortstring; begin getdir(drivenr,s); dir:=s; end; {$ifopt R+} {$define RangeCheckWasOn} {$R-} {$endif opt R+} {$ifopt I+} {$define IOCheckWasOn} {$I-} {$endif opt I+} {$ifopt Q+} {$define OverflowCheckWasOn} {$Q-} {$endif opt Q+} {***************************************************************************** Miscellaneous *****************************************************************************} procedure int_overflow;[public,alias:'FPC_OVERFLOW']; begin HandleErrorFrame(215,get_frame); end; procedure int_iocheck(addr : longint);[saveregisters,public,alias:'FPC_IOCHECK']; var l : longint; begin if InOutRes<>0 then begin l:=InOutRes; InOutRes:=0; HandleErrorFrame(l,get_frame); end; end; Function IOResult:Word; Begin IOResult:=InOutRes; InOutRes:=0; End; procedure fillchar(var x;count : longint;value : boolean); begin fillchar(x,count,byte(value)); end; procedure fillchar(var x;count : longint;value : char); begin fillchar(x,count,byte(value)); end; {***************************************************************************** Initialization / Finalization *****************************************************************************} const maxunits=1024; { See also files.pas of the compiler source } type TInitFinalRec=record InitProc, FinalProc : TProcedure; end; TInitFinalTable=record TableCount, InitCount : longint; Procs : array[1..maxunits] of TInitFinalRec; end; var InitFinalTable : TInitFinalTable;external name 'INITFINAL'; procedure InitializeUnits;[public,alias:'FPC_INITIALIZEUNITS']; var i : longint; begin with InitFinalTable do begin for i:=1to TableCount do begin if assigned(Procs[i].InitProc) then Procs[i].InitProc(); InitCount:=i; end; end; end; procedure FinalizeUnits;[public,alias:'FPC_FINALIZEUNITS']; begin with InitFinalTable do begin while (InitCount>0) do begin // we've to decrement the cound before calling the final. code // else a halt in the final. code leads to a endless loop dec(InitCount); if assigned(Procs[InitCount+1].FinalProc) then Procs[InitCount+1].FinalProc(); end; end; end; {***************************************************************************** Error / Exit / ExitProc *****************************************************************************} Procedure system_exit;forward; Procedure do_exit;[Public,Alias:'FPC_DO_EXIT']; var current_exit : Procedure; Begin while exitProc<>nil Do Begin InOutRes:=0; current_exit:=tProcedure(exitProc); exitProc:=nil; current_exit(); End; { Finalize units } FinalizeUnits; { Show runtime error } If erroraddr<>nil Then Begin Writeln(stdout,'Runtime error ',Errorcode,' at 0x',hexstr(Longint(Erroraddr),8)); { to get a nice symify } Writeln(stdout,BackTraceStrFunc(Longint(Erroraddr))); dump_stack(stdout,ErrorBase); Writeln(stdout,''); End; { call system dependent exit code } System_exit; End; Procedure Halt(ErrNum: Byte); Begin ExitCode:=Errnum; Do_Exit; end; function SysBackTraceStr (Addr: longint): ShortString; begin SysBackTraceStr:=' 0x'+HexStr(addr,8); end; Procedure HandleErrorAddrFrame (Errno : longint;addr,frame : longint); begin If pointer(ErrorProc)<>Nil then ErrorProc(Errno,pointer(addr),pointer(frame)); errorcode:=Errno; exitcode:=Errno; erroraddr:=pointer(addr); errorbase:=frame; halt(errorcode); end; Procedure HandleErrorFrame (Errno : longint;frame : longint); { Procedure to handle internal errors, i.e. not user-invoked errors Internal function should ALWAYS call HandleError instead of RunError. Can be used for exception handlers to specify the frame } begin HandleErrorAddrFrame(Errno,get_caller_addr(frame),get_caller_frame(frame)); end; Procedure HandleError (Errno : longint);[public,alias : 'FPC_HANDLEERROR']; { Procedure to handle internal errors, i.e. not user-invoked errors Internal function should ALWAYS call HandleError instead of RunError. } begin HandleErrorFrame(Errno,get_frame); end; procedure runerror(w : word);[alias: 'FPC_RUNERROR']; begin errorcode:=w; exitcode:=w; erroraddr:=pointer(get_caller_addr(get_frame)); errorbase:=get_caller_frame(get_frame); halt(errorcode); end; Procedure RunError; Begin RunError (0); End; Procedure Halt; Begin Halt(0); End; function do_isdevice(handle:longint):boolean;forward; Procedure dump_stack(var f : text;bp : Longint); var i, prevbp : Longint; is_dev : boolean; Begin prevbp:=bp-1; i:=0; is_dev:=do_isdevice(textrec(f).Handle); while bp > prevbp Do Begin Writeln(f,BackTraceStrFunc(get_caller_addr(bp))); Inc(i); If ((i>max_frame_dump) and is_dev) or (i>256) Then exit; prevbp:=bp; bp:=get_caller_frame(bp); End; End; Type PExitProcInfo = ^TExitProcInfo; TExitProcInfo = Record Next : PExitProcInfo; SaveExit : Pointer; Proc : TProcedure; End; const ExitProcList: PExitProcInfo = nil; Procedure DoExitProc; var P : PExitProcInfo; Proc : TProcedure; Begin P:=ExitProcList; ExitProcList:=P^.Next; ExitProc:=P^.SaveExit; Proc:=P^.Proc; DisPose(P); Proc(); End; Procedure AddExitProc(Proc: TProcedure); var P : PExitProcInfo; Begin New(P); P^.Next:=ExitProcList; P^.SaveExit:=ExitProc; P^.Proc:=Proc; ExitProcList:=P; ExitProc:=@DoExitProc; End; {***************************************************************************** Abstract/Assert support. *****************************************************************************} procedure AbstractError;[public,alias : 'FPC_ABSTRACTERROR']; begin If pointer(AbstractErrorProc)<>nil then AbstractErrorProc(); HandleErrorFrame(211,get_frame); end; Procedure int_assert(Const Msg,FName:Shortstring;LineNo,ErrorAddr:Longint); [SaveRegisters,Public,Alias : 'FPC_ASSERT']; begin if pointer(AssertErrorProc)<>nil then AssertErrorProc(Msg,FName,LineNo,ErrorAddr) else HandleErrorFrame(227,get_frame); end; Procedure SysAssert(Const Msg,FName:Shortstring;LineNo,ErrorAddr:Longint); begin If msg='' then write(stderr,'Assertion failed') else write(stderr,msg); Writeln(stderr,' (',FName,', line ',LineNo,').'); Writeln(stderr,''); end; {***************************************************************************** SetJmp/LongJmp support. *****************************************************************************} {$i setjump.inc} {$ifdef IOCheckWasOn} {$I+} {$endif} {$ifdef RangeCheckWasOn} {$R+} {$endif} {$ifdef OverflowCheckWasOn} {$Q+} {$endif} {***************************************************************************** Object Pascal support *****************************************************************************} {$i objpas.inc} { $Log$ Revision 1.3 2000-07-14 10:33:10 michael + Conditionals fixed Revision 1.2 2000/07/13 11:33:45 michael + removed logs }