{ $Id$ This file is part of the Free Pascal run time library. Copyright (c) 1997 by Michael Van Canneyt, member of 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. **********************************************************************} type treal_type = (rt_s64real,rt_s32real,rt_f32bit,rt_s80real,rt_s64bit); { corresponding to real single fixed extended and comp for i386 } {$ifdef i386} {$ifdef DEFAULT_EXTENDED} bestreal = extended; {$else} bestreal = double; {$endif DEFAULT_EXTENDED} {$else i386} bestreal = single; {$endif i386} Procedure str_real (len,f : longint; d : bestreal; real_type :treal_type; var s : string); { These numbers are for the double type... At the moment these are mapped onto a double but this may change in the future ! } var maxlen : longint; { Maximal length of string for float } minlen : longint; { Minimal length of string for float } explen : longint; { Length of exponent, including E and sign. Must be strictly larger than 2 } const maxexp = 1e+35; { Maximum value for decimal expressions } minexp = 1e-35; { Minimum value for decimal expressions } zero = '0000000000000000000000000000000000000000'; var correct : longint; { Power correction } currprec : longint; roundcorr : bestreal; temp : string; power : string[10]; sign : boolean; i : integer; dot : byte; begin case real_type of rt_s64real : begin maxlen:=23; minlen:=9; explen:=5; end; rt_s32real : begin maxlen:=16; minlen:=8; explen:=4; end; rt_f32bit : begin maxlen:=16; minlen:=8; explen:=4; end; rt_s80real : begin maxlen:=26; minlen:=10; explen:=6; end; rt_s64bit : begin maxlen:=22; minlen:=9; { according to TP (was 5) (FK) } explen:=6; end; end; { check parameters } { default value for length is -32767 } if len=-32767 then len:=maxlen; { determine sign. before precision, needs 2 less calls to abs() } sign:=d<0; { the creates a cannot determine which overloaded function to call if d is extended !!! we should prefer real_to_real on real_to_longint !! corrected in compiler } { d:=abs(d); this converts d to double so we loose precision } { for the same reason I converted d:=frac(d) to d:=d-int(d); (PM) } if sign then d:=-d; { determine precision : maximal precision is : } currprec:=maxlen-explen-3; { this is also the maximal number of decimals !!} if f>currprec then f:=currprec; { when doing a fixed-point, we need less characters.} if (f<0) or ( (d<>0) and ((d>maxexp) or (d=0) and (len0) and (len=10.0 then while d>=10.0 do begin d:=d/10.0; inc(correct); end else if (d<1) and (d<>0) then while d<1 do begin d:=d*10.0; dec(correct); end; { RoundOff } roundcorr:=0.5; if f<0 then for i:=1 to currprec do roundcorr:=roundcorr/10 else for i:=1 to correct+f do roundcorr:=roundcorr/10; d:=d+roundcorr; { 0.99 + 0.05 > 10.0 ! Fix this by dividing the results >=10 first (PV) } if d>=10.0 then begin d:=d/10.0; inc(correct); end; { Now we have a standard expression : sign d *10^correct where 1maxexp) then begin insert ('.',temp,3); str(abs(correct),power); if length(power)=0 then begin if length(temp)0 then temp[0]:=chr(pos('.',temp)+f) else temp[0]:=chr(pos('.',temp)-1); end; if length(temp)