{ $Id$ This file is part of the Free Pascal run time library. Copyright (c) 1999-2000 by the Free Pascal development team This file contains some helper routines for int64 and qword 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. **********************************************************************} {$Q- no overflow checking } {$R- no range checking } type tqwordrec = packed record low : dword; high : dword; end; function count_leading_zeros(q : qword) : longint; var r,i : longint; begin r:=0; for i:=0 to 31 do begin if (tqwordrec(q).high and (longint($80000000) shr i))<>0 then begin count_leading_zeros:=r; exit; end; inc(r); end; for i:=0 to 31 do begin if (tqwordrec(q).low and (longint($80000000) shr i))<>0 then begin count_leading_zeros:=r; exit; end; inc(r); end; count_leading_zeros:=r; end; function divqword(n,z : qword) : qword;[public,alias: 'FPC_DIV_QWORD']; var shift,lzz,lzn : longint; { one : qword; } begin divqword:=0; if n=0 then HandleErrorFrame(200,get_frame); lzz:=count_leading_zeros(z); lzn:=count_leading_zeros(n); { if the denominator contains less zeros } { then the numerator } { the d is greater than the n } if lzn=n then begin z:=z-n; divqword:=divqword+(qword(1) shl shift); end; dec(shift); n:=n shr 1; until shift<0; end; function modqword(n,z : qword) : qword;[public,alias: 'FPC_MOD_QWORD']; var shift,lzz,lzn : longint; begin modqword:=0; if n=0 then HandleErrorFrame(200,get_frame); lzz:=count_leading_zeros(z); lzn:=count_leading_zeros(n); { if the denominator contains less zeros } { then the numerator } { the d is greater than the n } if lzn=n then z:=z-n; dec(shift); n:=n shr 1; until shift<0; modqword:=z; end; function divint64(n,z : int64) : int64;[public,alias: 'FPC_DIV_INT64']; var sign : boolean; q1,q2 : qword; c : comp; begin if n=0 then HandleErrorFrame(200,get_frame); { can the fpu do the work? } if fpuint64 then begin // the c:=comp(...) is necessary to shut up the compiler c:=comp(comp(z)/comp(n)); divint64:=qword(c); end else begin sign:=false; if z<0 then begin sign:=not(sign); q1:=qword(-z); end else q1:=z; if n<0 then begin sign:=not(sign); q2:=qword(-n); end else q2:=n; { the div is coded by the compiler as call to divqword } if sign then divint64:=-(q1 div q2) else divint64:=q1 div q2; end; end; function modint64(n,z : int64) : int64;[public,alias: 'FPC_MOD_INT64']; var signed : boolean; r,nq,zq : qword; begin if n=0 then HandleErrorFrame(200,get_frame); if n<0 then begin nq:=-n; signed:=true; end else begin signed:=false; nq:=n; end; if z<0 then begin zq:=qword(-z); signed:=not(signed); end else zq:=z; r:=zq mod nq; if signed then modint64:=-int64(r) else modint64:=r; end; { multiplies two qwords the longbool for checkoverflow avoids a misaligned stack } function mulqword(f1,f2 : qword;checkoverflow : longbool) : qword;[public,alias: 'FPC_MUL_QWORD']; var _f1,bitpos : qword; l : longint; {$ifdef i386} r : qword; {$endif i386} begin {$ifdef i386} if not(checkoverflow) then begin asm movl f1+4,%edx movl f2+4,%ecx orl %ecx,%edx movl f2,%edx movl f1,%eax jnz .Lqwordmultwomul mull %edx jmp .Lqwordmulready .Lqwordmultwomul: imul f1+4,%edx imul %eax,%ecx addl %edx,%ecx mull f2 add %ecx,%edx .Lqwordmulready: movl %eax,r movl %edx,r+4 end; mulqword:=r; end else {$endif i386} begin mulqword:=0; bitpos:=1; // store f1 for overflow checking _f1:=f1; for l:=0 to 63 do begin if (f2 and bitpos)<>0 then mulqword:=mulqword+f1; f1:=f1 shl 1; bitpos:=bitpos shl 1; end; { if one of the operands is greater than the result an } { overflow occurs } if checkoverflow and (_f1 <> 0) and (f2 <>0) and ((_f1>mulqword) or (f2>mulqword)) then HandleErrorFrame(215,get_frame); end; end; { multiplies two int64 .... fpuint64 = false: ... using the the qword multiplication fpuint64 = true: ... using the comp multiplication the longbool for checkoverflow avoids a misaligned stack } function mulint64(f1,f2 : int64;checkoverflow : longbool) : int64;[public,alias: 'FPC_MUL_INT64']; var sign : boolean; q1,q2,q3 : qword; c : comp; begin { can the fpu do the work ? } if fpuint64 and not(checkoverflow) then begin // the c:=comp(...) is necessary to shut up the compiler c:=comp(comp(f1)*comp(f2)); mulint64:=int64(c); end else begin sign:=false; if f1<0 then begin sign:=not(sign); q1:=qword(-f1); end else q1:=f1; if f2<0 then begin sign:=not(sign); q2:=qword(-f2); end else q2:=f2; { the q1*q2 is coded as call to mulqword } q3:=q1*q2; if checkoverflow and (q1 <> 0) and (q2 <>0) and ((q1>q3) or (q2>q3) or { the bit 63 can be only set if we have $80000000 00000000 } { and sign is true } ((tqwordrec(q3).high and longint($80000000))<>0) and ((q3<>(qword(1) shl 63)) or not(sign)) ) then HandleErrorFrame(215,get_frame); if sign then mulint64:=-q3 else mulint64:=q3; end; end; procedure qword_str(value : qword;var s : string); var hs : string; begin hs:=''; repeat hs:=chr(longint(value mod 10)+48)+hs; value:=value div 10; until value=0; s:=hs; end; procedure int64_str(value : int64;var s : string); var hs : string; q : qword; begin if value<0 then begin q:=qword(-value); qword_str(q,hs); s:='-'+hs; end else qword_str(qword(value),s); end; procedure int_str_qword(v : qword;len : longint;var s : shortstring);[public,alias:'FPC_SHORTSTR_QWORD']; begin qword_str(v,s); if length(s)length(s) then exit; { high(int64) produces 0 in version 1.0 (JM) } with qwordrec(maxint64) do begin l1 := longint($ffffffff); l2 := $7fffffff; end; with qwordrec(maxqword) do begin l1 := longint($ffffffff); l2 := longint($ffffffff); end; while Code<=Length(s) do begin case s[Code] of '0'..'9' : u:=Ord(S[Code])-Ord('0'); 'A'..'F' : u:=Ord(S[Code])-(Ord('A')-10); 'a'..'f' : u:=Ord(S[Code])-(Ord('a')-10); else u:=16; end; Prev:=Temp; Temp:=Temp*Int64(base); If (u >= base) or ((base = 10) and (maxint64-temp+ord(negative) < u)) or ((base <> 10) and (qword(maxqword-temp) < u)) or (prev > maxqword div qword(base)) Then Begin ValInt64 := 0; Exit End; Temp:=Temp+u; inc(code); end; code:=0; ValInt64:=int64(Temp); If Negative Then ValInt64:=-ValInt64; end; Function ValQWord(Const S: ShortString; var Code: ValSInt): QWord; [public, alias:'FPC_VAL_QWORD_SHORTSTR']; type qwordrec = packed record l1,l2: longint; end; var u, prev, maxqword: QWord; base : byte; negative : boolean; begin ValQWord:=0; Code:=InitVal(s,negative,base); If Negative or (Code>length(s)) Then Exit; with qwordrec(maxqword) do begin l1 := $ffffffff; l2 := $ffffffff; end; while Code<=Length(s) do begin case s[Code] of '0'..'9' : u:=Ord(S[Code])-Ord('0'); 'A'..'F' : u:=Ord(S[Code])-(Ord('A')-10); 'a'..'f' : u:=Ord(S[Code])-(Ord('a')-10); else u:=16; end; prev := ValQWord; If (u>=base) or ((QWord(maxqword-u) div QWord(base))$7fffffff are parsed as unsigned constants (otherwise, $80000000 got sign extended and became $ffffffff80000000), all constants in the longint range become longints, all constants >$7fffffff and <=cardinal($ffffffff) are cardinals and the rest are int64's. * added lots of longint typecast to prevent range check errors in the compiler and rtl * type casts of symbolic ordinal constants are now preserved * fixed bug where the original resulttype wasn't restored correctly after doing a 64bit rangecheck Revision 1.4 2000/11/17 17:01:23 jonas * fixed bug for val when processing -2147483648 and low(int64) (merged) Revision 1.3 2000/07/28 12:29:49 jonas * fixed web bug1069 * fixed similar (and other) problems in val() for int64 and qword (both merged from fixes branch) Revision 1.2 2000/07/13 11:33:44 michael + removed logs }