{ $Id$ 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 : Pointer); forward; type FileFunc = Procedure(var t : TextRec); const STACK_MARGIN = 16384; { Stack size margin for stack checking } { Random / Randomize constants } OldRandSeed : Cardinal = 0; { For Error Handling.} ErrorBase : Pointer = nil; { Used by the ansistrings and maybe also other things in the future } var emptychar : char;public name 'FPC_EMPTYCHAR'; initialstklen : longint;external name '__stklen'; {**************************************************************************** Routines which have compiler magic ****************************************************************************} {$ifndef INTERNCONSTINTF} Function lo(i : Integer) : byte; [INTERNPROC: fpc_in_lo_Word]; Function lo(w : Word) : byte; [INTERNPROC: fpc_in_lo_Word]; Function lo(l : Longint) : Word; [INTERNPROC: fpc_in_lo_long]; Function lo(l : DWord) : Word; [INTERNPROC: fpc_in_lo_long]; Function hi(i : Integer) : byte; [INTERNPROC: fpc_in_hi_Word]; Function hi(w : Word) : byte; [INTERNPROC: fpc_in_hi_Word]; Function hi(l : Longint) : Word; [INTERNPROC: fpc_in_hi_long]; Function hi(l : DWord) : Word; [INTERNPROC: fpc_in_hi_long]; Function lo(q : QWord) : DWord; [INTERNPROC: fpc_in_lo_qword]; Function lo(i : Int64) : DWord; [INTERNPROC: fpc_in_lo_qword]; Function hi(q : QWord) : DWord; [INTERNPROC: fpc_in_hi_qword]; Function hi(i : Int64) : DWord; [INTERNPROC: fpc_in_hi_qword]; Function chr(b : byte) : Char; [INTERNPROC: fpc_in_chr_byte]; {$ifndef INTERNLENGTH} Function Length(s : string) : byte; [INTERNPROC: fpc_in_Length_string]; Function Length(c : char) : byte; [INTERNPROC: fpc_in_Length_string]; {$endif INTERNLENGTH} Procedure Reset(var f : TypedFile); [INTERNPROC: fpc_in_Reset_TypedFile]; Procedure Rewrite(var f : TypedFile); [INTERNPROC: fpc_in_Rewrite_TypedFile]; {$endif INTERNCONSTINTF} {**************************************************************************** Include processor specific routines ****************************************************************************} {$ifdef FPC_USE_LIBC} { prefer libc implementations over our own, as they're most likely faster } {$i cgeneric.inc} { is now declared as external reference to another routine in the interface } {$i cgenstr.inc} {$endif FPC_USE_LIBC} {$ifdef cpui386} {$ifdef SYSPROCDEFINED} {$Error Can't determine processor type !} {$endif} {$i i386.inc} { Case dependent, don't change } {$endif cpui386} {$ifdef cpum68k} {$ifdef SYSPROCDEFINED} {$Error Can't determine processor type !} {$endif} {$i m68k.inc} { Case dependent, don't change } {$define SYSPROCDEFINED} {$endif cpum68k} {$ifdef cpux86_64} {$ifdef SYSPROCDEFINED} {$Error Can't determine processor type !} {$endif} {$i x86_64.inc} { Case dependent, don't change } {$define SYSPROCDEFINED} {$endif cpux86_64} {$ifdef cpupowerpc} {$ifdef SYSPROCDEFINED} {$Error Can't determine processor type !} {$endif} {$i powerpc.inc} { Case dependent, don't change } {$define SYSPROCDEFINED} {$endif cpupowerpc} {$ifdef cpualpha} {$ifdef SYSPROCDEFINED} {$Error Can't determine processor type !} {$endif} {$i alpha.inc} { Case dependent, don't change } {$define SYSPROCDEFINED} {$endif cpualpha} {$ifdef cpuiA64} {$ifdef SYSPROCDEFINED} {$Error Can't determine processor type !} {$endif} {$i ia64.inc} { Case dependent, don't change } {$define SYSPROCDEFINED} {$endif cpuiA64} {$ifdef cpusparc} {$ifdef SYSPROCDEFINED} {$Error Can't determine processor type !} {$endif} {$i sparc.inc} { Case dependent, don't change } {$define SYSPROCDEFINED} {$endif cpusparc} {$ifdef cpuarm} {$ifdef SYSPROCDEFINED} {$Error Can't determine processor type !} {$endif} {$i arm.inc} { Case dependent, don't change } {$define SYSPROCDEFINED} {$endif cpuarm} procedure fillchar(var x;count : SizeInt;value : boolean);{$ifdef SYSTEMINLINE}inline;{$endif} begin fillchar(x,count,byte(value)); end; procedure fillchar(var x;count : SizeInt;value : char);{$ifdef SYSTEMINLINE}inline;{$endif} begin fillchar(x,count,byte(value)); end; { Include generic pascal only routines which are not defined in the processor specific include file } {$I generic.inc} {**************************************************************************** Set Handling ****************************************************************************} { Include set support which is processor specific} {$i set.inc} { Include generic pascal routines for sets if the processor } { specific routines are not available. } {$i genset.inc} {**************************************************************************** Math Routines ****************************************************************************} function Hi(b : byte): byte;{$ifdef SYSTEMINLINE}inline;{$endif} begin Hi := b shr 4 end; function Lo(b : byte): byte;{$ifdef SYSTEMINLINE}inline;{$endif} begin Lo := b and $0f end; Function swap (X : Word) : Word;{$ifdef SYSTEMINLINE}inline;{$endif}{$ifndef INTERNCONSTINTF}[internconst:fpc_in_const_swap_word];{$endif} Begin swap:=(X and $ff) shl 8 + (X shr 8) End; Function Swap (X : Integer) : Integer;{$ifdef SYSTEMINLINE}inline;{$endif}{$ifndef INTERNCONSTINTF}[internconst:fpc_in_const_swap_word];{$endif} Begin swap:=(X and $ff) shl 8 + (X shr 8) End; Function swap (X : Longint) : Longint;{$ifdef SYSTEMINLINE}inline;{$endif}{$ifndef INTERNCONSTINTF}[internconst:fpc_in_const_swap_long];{$endif} Begin Swap:=(X and $ffff) shl 16 + (X shr 16) End; Function Swap (X : Cardinal) : Cardinal;{$ifdef SYSTEMINLINE}inline;{$endif}{$ifndef INTERNCONSTINTF}[internconst:fpc_in_const_swap_long];{$endif} Begin Swap:=(X and $ffff) shl 16 + (X shr 16) End; Function Swap (X : QWord) : QWord;{$ifdef SYSTEMINLINE}inline;{$endif}{$ifndef INTERNCONSTINTF}[internconst:fpc_in_const_swap_qword];{$endif} Begin Swap:=(X and $ffffffff) shl 32 + (X shr 32); End; Function swap (X : Int64) : Int64;{$ifdef SYSTEMINLINE}inline;{$endif}{$ifndef INTERNCONSTINTF}[internconst:fpc_in_const_swap_qword];{$endif} Begin Swap:=(X and $ffffffff) shl 32 + (X shr 32); End; {$ifdef SUPPORT_DOUBLE} operator := (b:real48) d:double; begin D:=real2double(b); end; {$endif SUPPORT_DOUBLE} {$ifdef SUPPORT_EXTENDED} operator := (b:real48) e:extended; begin e:=real2double(b); end; {$endif SUPPORT_EXTENDED} {$ifdef FPC_USE_LIBC} { Include libc versions } {$i cgenmath.inc} {$endif FPC_USE_LIBC} { Include processor specific routines } {$I math.inc} { Include generic version } {$I genmath.inc} operator ** (bas,expo : real) e: real; begin e:=power(bas,expo); end; operator ** (bas,expo : int64) i: int64; begin i:=power(bas,expo); end; {**************************************************************************** Subroutines for String handling ****************************************************************************} { Needs to be before RTTI handling } {$i sstrings.inc} { requires sstrings.inc for initval } {$I int64p.inc} {$I int64.inc} {Requires int64.inc, since that contains the VAL functions for int64 and qword} {$i astrings.inc} {$ifdef HASWIDESTRING} {$i wstrings.inc} {$endif HASWIDESTRING} {$i aliases.inc} {***************************************************************************** Dynamic Array support *****************************************************************************} {$i dynarr.inc} {***************************************************************************** Object Pascal support *****************************************************************************} {$i objpas.inc} {***************************************************************************** Variant support *****************************************************************************} {$ifdef HASVARIANT} {$i variant.inc} {$endif HASVARIANT} {**************************************************************************** Run-Time Type Information (RTTI) ****************************************************************************} {$i rtti.inc} {---------------------------------------------------------------------- Mersenne Twister: A 623-Dimensionally Equidistributed Uniform Pseudo-Random Number Generator. What is Mersenne Twister? Mersenne Twister(MT) is a pseudorandom number generator developped by Makoto Matsumoto and Takuji Nishimura (alphabetical order) during 1996-1997. MT has the following merits: It is designed with consideration on the flaws of various existing generators. Far longer period and far higher order of equidistribution than any other implemented generators. (It is proved that the period is 2^19937-1, and 623-dimensional equidistribution property is assured.) Fast generation. (Although it depends on the system, it is reported that MT is sometimes faster than the standard ANSI-C library in a system with pipeline and cache memory.) Efficient use of the memory. (The implemented C-code mt19937.c consumes only 624 words of working area.) home page http://www.math.keio.ac.jp/~matumoto/emt.html original c source http://www.math.keio.ac.jp/~nisimura/random/int/mt19937int.c Coded by Takuji Nishimura, considering the suggestions by Topher Cooper and Marc Rieffel in July-Aug. 1997. This library is free software; you can redistribute it and/or modify it under the terms of the GNU Library General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This library is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public License for more details. You should have received a copy of the GNU Library General Public License along with this library; if not, write to the Free Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA Copyright (C) 1997, 1999 Makoto Matsumoto and Takuji Nishimura. When you use this, send an email to: matumoto@math.keio.ac.jp with an appropriate reference to your work. REFERENCE M. Matsumoto and T. Nishimura, "Mersenne Twister: A 623-Dimensionally Equidistributed Uniform Pseudo-Random Number Generator", ACM Transactions on Modeling and Computer Simulation, Vol. 8, No. 1, January 1998, pp 3--30. Translated to OP and Delphi interface added by Roman Krejci (6.12.1999) http://www.rksolution.cz/delphi/tips.htm Revised 21.6.2000: Bug in the function RandInt_MT19937 fixed 2003/10/26: adapted to use the improved intialisation mentioned at and removed the assembler code ----------------------------------------------------------------------} {$R-} {range checking off} {$Q-} {overflow checking off} { Period parameter } Const MT19937N=624; Type tMT19937StateArray = array [0..MT19937N-1] of longint; // the array for the state vector { Period parameters } const MT19937M=397; MT19937MATRIX_A =$9908b0df; // constant vector a MT19937UPPER_MASK=$80000000; // most significant w-r bits MT19937LOWER_MASK=$7fffffff; // least significant r bits { Tempering parameters } TEMPERING_MASK_B=$9d2c5680; TEMPERING_MASK_C=$efc60000; VAR mt : tMT19937StateArray; const mti: longint=MT19937N+1; // mti=MT19937N+1 means mt[] is not initialized { Initializing the array with a seed } procedure sgenrand_MT19937(seed: longint); var i: longint; begin mt[0] := seed; for i := 1 to MT19937N-1 do begin mt[i] := 1812433253 * (mt[i-1] xor (mt[i-1] shr 30)) + i; { See Knuth TAOCP Vol2. 3rd Ed. P.106 for multiplier. } { In the previous versions, MSBs of the seed affect } { only MSBs of the array mt[]. } { 2002/01/09 modified by Makoto Matsumoto } end; mti := MT19937N; end; function genrand_MT19937: longint; const mag01 : array [0..1] of longint =(0, longint(MT19937MATRIX_A)); var y: longint; kk: longint; begin if (mti >= MT19937N) or (randseed <> oldrandseed) { generate MT19937N longints at one time } then begin if mti = (MT19937N+1) then // if sgenrand_MT19937() has not been called, begin sgenrand_MT19937(randseed); // default initial seed is used { hack: randseed is not used more than once in this algorithm. Most } { user changes are re-initialising reandseed with the value it had } { at the start -> with the "not", we will detect this change. } { Detecting other changes is not useful, since the generated } { numbers will be different anyway. } randseed := not(randseed); oldrandseed := randseed; end; for kk:=0 to MT19937N-MT19937M-1 do begin y := (mt[kk] and MT19937UPPER_MASK) or (mt[kk+1] and MT19937LOWER_MASK); mt[kk] := mt[kk+MT19937M] xor (y shr 1) xor mag01[y and $00000001]; end; for kk:= MT19937N-MT19937M to MT19937N-2 do begin y := (mt[kk] and MT19937UPPER_MASK) or (mt[kk+1] and MT19937LOWER_MASK); mt[kk] := mt[kk+(MT19937M-MT19937N)] xor (y shr 1) xor mag01[y and $00000001]; end; y := (mt[MT19937N-1] and MT19937UPPER_MASK) or (mt[0] and MT19937LOWER_MASK); mt[MT19937N-1] := mt[MT19937M-1] xor (y shr 1) xor mag01[y and $00000001]; mti := 0; end; y := mt[mti]; inc(mti); y := y xor (y shr 11); y := y xor (y shl 7) and TEMPERING_MASK_B; y := y xor (y shl 15) and TEMPERING_MASK_C; y := y xor (y shr 18); Result := y; end; function random(l:longint): longint; begin random := longint((int64(cardinal(genrand_MT19937))*l) shr 32); end; function random(l:int64): int64; begin {$ifndef VER1_0} random := int64((qword(cardinal(genrand_MT19937)) or ((qword(cardinal(genrand_MT19937)) shl 32))) and $7fffffffffffffff) mod l; {$endif VER1_0} end; function random: extended; begin random := cardinal(genrand_MT19937) * (1.0/(int64(1) shl 32)); end; {**************************************************************************** Memory Management ****************************************************************************} Function Ptr(sel,off : Longint) : farpointer;{$ifdef SYSTEMINLINE}inline;{$endif}{$ifndef INTERNCONSTINTF}[internconst:fpc_in_const_ptr];{$endif} Begin ptr:=farpointer((sel shl 4)+off); End; Function CSeg : Word;{$ifdef SYSTEMINLINE}inline;{$endif} Begin Cseg:=0; End; Function DSeg : Word;{$ifdef SYSTEMINLINE}inline;{$endif} Begin Dseg:=0; End; Function SSeg : Word;{$ifdef SYSTEMINLINE}inline;{$endif} Begin Sseg:=0; End; {***************************************************************************** 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 fpc_rangeerror;[public,alias:'FPC_RANGEERROR']; {$ifdef hascompilerproc} compilerproc; {$endif} begin HandleErrorFrame(201,get_frame); end; procedure fpc_divbyzero;[public,alias:'FPC_DIVBYZERO']; {$ifdef hascompilerproc} compilerproc; {$endif} begin HandleErrorFrame(200,get_frame); end; procedure fpc_overflow;[public,alias:'FPC_OVERFLOW']; {$ifdef hascompilerproc} compilerproc; {$endif} begin HandleErrorFrame(215,get_frame); end; procedure fpc_iocheck;{$ifndef NOSAVEREGISTERS}saveregisters;{$endif}[public,alias:'FPC_IOCHECK']; {$ifdef hascompilerproc} compilerproc; {$endif} var l : longint; begin if InOutRes<>0 then begin l:=InOutRes; InOutRes:=0; HandleErrorFrame(l,get_frame); end; end; Function IOResult:Word;{$ifdef SYSTEMINLINE}inline;{$endif} Begin IOResult:=InOutRes; InOutRes:=0; End; Function GetThreadID:SizeUInt;{$ifdef SYSTEMINLINE}inline;{$endif} begin (* ThreadID is stored in a threadvar and made available in interface *) (* to allow setup of this value during thread initialization. *) GetThreadID := ThreadID; end; {***************************************************************************** Stack check code *****************************************************************************} {$IFNDEF NO_GENERIC_STACK_CHECK} {$IFOPT S+} {$DEFINE STACKCHECK} {$ENDIF} {$S-} procedure fpc_stackcheck(stack_size:Cardinal);{$ifndef NOSAVEREGISTERS}saveregisters;{$endif}[public,alias:'FPC_STACKCHECK']; var c : Pointer; begin { Avoid recursive calls when called from the exit routines } if StackError then exit; c := Sptr - (stack_size + STACK_MARGIN); if (c <= StackBottom) then begin StackError:=true; HandleError(202); end; end; {$IFDEF STACKCHECK} {$S+} {$ENDIF} {$UNDEF STACKCHECK} {$ENDIF NO_GENERIC_STACK_CHECK} {***************************************************************************** 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 fpc_InitializeUnits;[public,alias:'FPC_INITIALIZEUNITS']; {$ifdef hascompilerproc} compilerproc; {$endif} var i : longint; begin { call cpu/fpu initialisation routine } fpc_cpuinit; with InitFinalTable do begin for i:=1 to 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 InternalExit; 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 and exit } If erroraddr<>nil Then Begin Writeln(stdout,'Runtime error ',Errorcode,' at $',hexstr(PtrInt(Erroraddr),sizeof(PtrInt)*2)); { to get a nice symify } Writeln(stdout,BackTraceStrFunc(Erroraddr)); dump_stack(stdout,ErrorBase); Writeln(stdout,''); End; End; Procedure do_exit;[Public,Alias:'FPC_DO_EXIT']; begin InternalExit; System_exit; end; Procedure lib_exit;{$ifndef NOSAVEREGISTERS}saveregisters;{$endif}[Public,Alias:'FPC_LIB_EXIT']; begin InternalExit; end; Procedure Halt(ErrNum: Byte); Begin ExitCode:=Errnum; Do_Exit; end; function SysBackTraceStr (Addr: Pointer): ShortString; begin SysBackTraceStr:=' $'+HexStr(Ptrint(addr),sizeof(PtrInt)*2); end; Procedure HandleErrorAddrFrame (Errno : longint;addr,frame : Pointer);[public,alias:'FPC_BREAK_ERROR']; begin If pointer(ErrorProc)<>Nil then ErrorProc(Errno,addr,frame); errorcode:=word(Errno); erroraddr:=addr; errorbase:=frame; if errorcode <= maxExitCode then halt(errorcode) else halt(255) end; Procedure HandleErrorFrame (Errno : longint;frame : Pointer); { Procedure to handle internal errors, i.e. not user-invoked errors Internal function should ALWAYS call HandleError instead of RunError. Can be used for exception handlers to specify the frame } begin HandleErrorAddrFrame(Errno,get_caller_addr(frame),get_caller_frame(frame)); end; Procedure HandleError (Errno : longint);[public,alias : 'FPC_HANDLEERROR']; { Procedure to handle internal errors, i.e. not user-invoked errors Internal function should ALWAYS call HandleError instead of RunError. } begin HandleErrorFrame(Errno,get_frame); end; procedure RunError(w : word);[alias: 'FPC_RUNERROR']; begin errorcode:=w; erroraddr:=get_caller_addr(get_frame); errorbase:=get_caller_frame(get_frame); if errorcode <= maxExitCode then halt(errorcode) else halt(255) end; Procedure RunError;{$ifdef SYSTEMINLINE}inline;{$endif} Begin RunError (0); End; Procedure Halt;{$ifdef SYSTEMINLINE}inline;{$endif} Begin Halt(0); End; function do_isdevice(handle:thandle):boolean;forward; Procedure dump_stack(var f : text;bp : Pointer); var i : Longint; prevbp : Pointer; is_dev : boolean; caller_frame, caller_addr : Pointer; Begin prevbp:=bp-1; i:=0; is_dev:=do_isdevice(textrec(f).Handle); while bp > prevbp Do Begin caller_addr := get_caller_addr(bp); caller_frame := get_caller_frame(bp); if (caller_addr=nil) or (caller_frame=nil) then break; Writeln(f,BackTraceStrFunc(caller_addr)); Inc(i); If ((i>max_frame_dump) and is_dev) or (i>256) Then break; prevbp:=bp; bp:=caller_frame; End; End; Type PExitProcInfo = ^TExitProcInfo; TExitProcInfo = Record Next : PExitProcInfo; SaveExit : Pointer; Proc : TProcedure; End; const ExitProcList: PExitProcInfo = nil; Procedure DoExitProc; var P : PExitProcInfo; Proc : TProcedure; Begin P:=ExitProcList; ExitProcList:=P^.Next; ExitProc:=P^.SaveExit; Proc:=P^.Proc; DisPose(P); Proc(); End; Procedure AddExitProc(Proc: TProcedure); var P : PExitProcInfo; Begin New(P); P^.Next:=ExitProcList; P^.SaveExit:=ExitProc; P^.Proc:=Proc; ExitProcList:=P; ExitProc:=@DoExitProc; End; function ArrayStringToPPchar(const S:Array of AnsiString;reserveentries:Longint):ppchar; // const ? // Extra allocate reserveentries pchar's at the beginning (default param=0 after 1.0.x ?) // Note: for internal use by skilled programmers only // if "s" goes out of scope in the parent procedure, the pointer is dangling. var p : ppchar; Res, i : LongInt; begin if High(s)#0) do // count nr of args begin while (buf^ in [' ',#9,#10]) do // Kill separators. inc(buf); inc(nr); if buf^='"' Then // quotes argument? begin inc(buf); while not (buf^ in [#0,'"']) do // then end of argument is end of string or next quote inc(buf); if buf^='"' then // skip closing quote. inc(buf); end else begin // else std while not (buf^ in [' ',#0,#9,#10]) do inc(buf); end; end; getmem(p,(ReserveEntries+nr)*sizeof(pchar)); StringToPPChar:=p; if p=nil then begin {$ifdef xunix} fpseterrno(ESysEnomem); {$endif} exit; end; for i:=1 to ReserveEntries do inc(p); // skip empty slots buf:=s; while (buf^<>#0) do begin while (buf^ in [' ',#9,#10]) do // Kill separators. begin buf^:=#0; inc(buf); end; if buf^='"' Then // quotes argument? begin inc(buf); p^:=buf; inc(p); p^:=nil; while not (buf^ in [#0,'"']) do // then end of argument is end of string or next quote inc(buf); if buf^='"' then // skip closing quote. begin buf^:=#0; inc(buf); end; end else begin p^:=buf; inc(p); p^:=nil; while not (buf^ in [' ',#0,#9,#10]) do inc(buf); end; end; end; {***************************************************************************** Abstract/Assert support. *****************************************************************************} procedure fpc_AbstractErrorIntern;{$ifdef hascompilerproc}compilerproc;{$endif}[public,alias : 'FPC_ABSTRACTERROR']; begin If pointer(AbstractErrorProc)<>nil then AbstractErrorProc(); HandleErrorFrame(211,get_frame); end; Procedure fpc_assert(Const Msg,FName:Shortstring;LineNo:Longint;ErrorAddr:Pointer);{$ifndef NOSAVEREGISTERS}saveregisters;{$endif} [Public,Alias : 'FPC_ASSERT']; {$ifdef hascompilerproc} compilerproc; {$endif} begin if pointer(AssertErrorProc)<>nil then AssertErrorProc(Msg,FName,LineNo,ErrorAddr) else HandleErrorFrame(227,get_frame); end; Procedure SysAssert(Const Msg,FName:Shortstring;LineNo:Longint;ErrorAddr:Pointer); begin If msg='' then write(stderr,'Assertion failed') else write(stderr,msg); Writeln(stderr,' (',FName,', line ',LineNo,').'); Writeln(stderr,''); Halt(227); end; {***************************************************************************** SetJmp/LongJmp support. *****************************************************************************} {$i setjump.inc} {$ifdef IOCheckWasOn} {$I+} {$endif} {$ifdef RangeCheckWasOn} {$R+} {$endif} {$ifdef OverflowCheckWasOn} {$Q+} {$endif} { $Log$ Revision 1.71 2004-12-05 14:36:37 hajny + GetProcessID added Revision 1.70 2004/11/21 16:14:59 jonas * fixed remaining compilation problems Revision 1.69 2004/11/20 15:49:21 jonas * some compilation fixes for powerpc after all the internconst and internproc changes, still crashes with internalerror(88) for ppc1 on real2str.inc(193,39) Revision 1.68 2004/11/17 22:19:04 peter internconst, internproc and some external declarations moved to interface Revision 1.67 2004/10/30 20:49:10 marco * arraytostring added Revision 1.66 2004/10/24 20:01:42 peter * saveregisters calling convention is obsolete Revision 1.65 2004/10/09 21:00:46 jonas + cgenmath with libc math functions. Faster than the routines in genmath and also have full double support (exp() only has support for values in the single range in genmath, for example). Used in FPC_USE_LIBC is defined * several fixes to allow compilation with -dHASINLINE, but internalerrors because of missing support for inlining assembler code Revision 1.64 2004/09/03 19:26:01 olle + added maxExitCode to all System.pp * constrained error code to be below maxExitCode in RunError et. al. Revision 1.63 2004/08/31 12:23:53 jonas * fixed compilation with 1.0.x Revision 1.62 2004/08/30 17:36:18 jonas * fixed random(int64) Revision 1.61 2004/08/29 10:23:12 peter no message Revision 1.60 2004/07/18 20:21:44 florian + several unicode (to/from utf-8 conversion) stuff added * some longint -> SizeInt changes Revision 1.59 2004/05/27 23:34:23 peter * stop backtrace also when caller frame is nil Revision 1.58 2004/05/16 18:51:20 peter * use thandle in do_* Revision 1.57 2004/05/01 15:26:33 jonas * use some more string routines from libc if FPC_USE_LIBC is used Revision 1.56 2004/04/22 19:43:43 peter * fix 64bit address printing Revision 1.55 2004/04/22 17:10:38 peter * random(int64) added Revision 1.54 2004/02/20 11:01:20 daniel * Applied Revision 1.53 2004/02/06 20:17:13 daniel * Use $ for hex numbers instead of alien 0x Revision 1.52 2004/01/22 20:12:37 florian * fixed syscall number Revision 1.51 2004/01/11 12:21:06 jonas * fixed wrong include filename Revision 1.50 2004/01/11 11:10:07 jonas + cgeneric.inc: implementations of rtl routines based on libc * system.inc: include cgeneric.inc before powerpc.inc/i386.inc/... if FPC_USE_LIBC is defined * powerpc.inc, i386.inc: check whether the routines they implement aren't implemented yet in another include file (cgeneric.inc) Revision 1.49 2004/01/02 17:21:50 jonas + fpc_cpuinit procedure to allow cpu/fpu initialisation before any unit initialises + fpu exceptions for invalid operations and division by zero enabled for ppc Revision 1.48 2004/01/01 17:58:16 jonas + integer division-by-zero detection support for ppc + compilerproc FPC_DIVBYZERO Revision 1.47 2003/11/03 09:42:28 marco * Peter's Cardinal<->Longint fixes patch Revision 1.46 2003/10/29 18:23:45 jonas * hack to allow repeatable random sequences using the new random number generator * fixed range warning/error Revision 1.45 2003/10/26 21:15:43 hajny * minor fix for new Random Revision 1.44 2003/10/26 18:46:02 jonas * replaced random generator with the Mersenne twister, which is about 3.5 times faster Revision 1.43 2003/09/14 11:34:13 peter * moved int64 asm code to int64p.inc * save ebx,esi Revision 1.42 2003/09/03 14:09:37 florian * arm fixes to the common rtl code * some generic math code fixed * ... Revision 1.41 2003/08/21 22:10:55 olle - removed parameter from fpc_iocheck * changed processor compiler directive * to cpu* Revision 1.40 2003/03/17 14:30:11 peter * changed address parameter/return values to pointer instead of longint Revision 1.39 2003/02/05 21:48:34 mazen * fixing run time errors related to unimplemented abstract methods in CG + giving empty emplementations for some RTL functions Revision 1.38 2002/12/07 14:36:33 carl - avoid warnings (add typecast) Revision 1.37 2002/11/18 18:33:51 peter * Swap(QWord) constant support Revision 1.36 2002/10/14 19:39:17 peter * threads unit added for thread support Revision 1.35 2002/09/18 18:32:01 carl * assert now halts with exitcode 227 (as Delphi does) Revision 1.34 2002/09/07 15:07:46 peter * old logs removed and tabs fixed Revision 1.33 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 1.32 2002/07/28 20:43:48 florian * several fixes for linux/powerpc * several fixes to MT Revision 1.31 2002/07/26 22:46:06 florian * interface of system unit for Linux/PowerPC compiles Revision 1.30 2002/07/26 16:42:00 florian * endian directive for PowerPC fixed Revision 1.29 2002/07/04 20:40:09 florian + some x86-64 support added Revision 1.28 2002/04/21 15:51:50 carl * StackError is now a typed constant + $S can be used under unix Revision 1.27 2002/04/15 19:38:40 peter * stackcheck protected against infinite recursive after stack error * stackcheck requires saveregisters, because it can be called from iocheck and then will destroy the result of the original function Revision 1.26 2002/04/15 18:51:20 carl + generic stack checking can be overriden Revision 1.25 2002/04/12 17:37:36 carl + generic stack checking }