{ Copyright (c) 1998-2002 by Florian Klaempfl This unit implements some support functions This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. 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. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. **************************************************************************** } {# This unit contains some generic support functions which are used in the different parts of the compiler. } unit cutils; {$i fpcdefs.inc} interface type pshortstring = ^string; Tcharset=set of char; var internalerrorproc : procedure(i:longint); {# Returns the minimal value between @var(a) and @var(b) } function min(a,b : longint) : longint;{$ifdef USEINLINE}inline;{$endif} function min(a,b : int64) : int64;{$ifdef USEINLINE}inline;{$endif} {# Returns the maximum value between @var(a) and @var(b) } function max(a,b : longint) : longint;{$ifdef USEINLINE}inline;{$endif} function max(a,b : int64) : int64;{$ifdef USEINLINE}inline;{$endif} {# Returns the value in @var(x) swapped to different endian } Function SwapInt64(x : int64): int64;{$ifdef USEINLINE}inline;{$endif} {# Returns the value in @var(x) swapped to different endian } function SwapLong(x : longint): longint;{$ifdef USEINLINE}inline;{$endif} {# Returns the value in @va(x) swapped to different endian } function SwapWord(x : word): word;{$ifdef USEINLINE}inline;{$endif} {# Returns the value in @va(x) swapped to different endian } Function SwapQWord(x : qword) : qword;{$ifdef USEINLINE}inline;{$endif} {# Return value @var(i) aligned on @var(a) boundary } function align(i,a:longint):longint;{$ifdef USEINLINE}inline;{$endif} {# Return @var(b) with the bit order reversed } function reverse_byte(b: byte): byte; function used_align(varalign,minalign,maxalign:shortint):shortint; function isbetteralignedthan(new, org, limit: cardinal): boolean; function size_2_align(len : longint) : shortint; function packedbitsloadsize(bitlen: int64) : int64; procedure Replace(var s:string;s1:string;const s2:string); procedure Replace(var s:AnsiString;s1:string;const s2:AnsiString); procedure ReplaceCase(var s:string;const s1,s2:string); Function MatchPattern(const pattern,what:string):boolean; function upper(const c : char) : char; function upper(const s : string) : string; function upper(const s : ansistring) : ansistring; function lower(const c : char) : char; function lower(const s : string) : string; function lower(const s : ansistring) : ansistring; function trimbspace(const s:string):string; function trimspace(const s:string):string; function space (b : longint): string; function PadSpace(const s:string;len:longint):string; function GetToken(var s:string;endchar:char):string; procedure uppervar(var s : string); function realtostr(e:extended):string;{$ifdef USEINLINE}inline;{$endif} function tostr(i : qword) : string;{$ifdef USEINLINE}inline;{$endif}overload; function tostr(i : int64) : string;{$ifdef USEINLINE}inline;{$endif}overload; function tostr(i : longint) : string;{$ifdef USEINLINE}inline;{$endif}overload; function tostr_with_plus(i : int64) : string;{$ifdef USEINLINE}inline;{$endif} function DStr(l:longint):string; {# Returns true if the string s is a number } function is_number(const s : string) : boolean;{$ifdef USEINLINE}inline;{$endif} {# Returns true if value is a power of 2, the actual exponent value is returned in power. } function ispowerof2(value : int64;out power : longint) : boolean; function nextpowerof2(value : int64; out power: longint) : int64; function backspace_quote(const s:string;const qchars:Tcharset):string; function octal_quote(const s:string;const qchars:Tcharset):string; function maybequoted(const s:string):string; function maybequoted(const s:ansistring):ansistring; {# If the string is quoted, in accordance with pascal, it is dequoted and returned in s, and the function returns true. If it is not quoted, or if the quoting is bad, s is not touched, and false is returned. } function DePascalQuote(var s: ansistring): Boolean; function CompareStr(const S1, S2: string): Integer; function CompareText(S1, S2: string): integer; { releases the string p and assignes nil to p } { if p=nil then freemem isn't called } procedure stringdispose(var p : pshortstring);{$ifdef USEINLINE}inline;{$endif} { allocates mem for a copy of s, copies s to this mem and returns } { a pointer to this mem } function stringdup(const s : string) : pshortstring;{$ifdef USEINLINE}inline;{$endif} {# Allocates memory for the string @var(s) and copies s as zero terminated string to that allocated memory and returns a pointer to that mem } function strpnew(const s : string) : pchar; {# makes the character @var(c) lowercase, with spanish, french and german character set } function lowercase(c : char) : char; { makes zero terminated string to a pascal string } { the data in p is modified and p is returned } function pchar2pshortstring(p : pchar) : pshortstring; { ambivalent to pchar2pshortstring } function pshortstring2pchar(p : pshortstring) : pchar; { Ansistring (pchar+length) support } procedure ansistringdispose(var p : pchar;length : longint); function compareansistrings(p1,p2 : pchar;length1,length2 : longint) : longint; function concatansistrings(p1,p2 : pchar;length1,length2 : longint) : pchar; {Lzw encode/decode to compress strings -> save memory.} function minilzw_encode(const s:string):string; function minilzw_decode(const s:string):string; Function nextafter(x,y:double):double; implementation uses SysUtils; var uppertbl, lowertbl : array[char] of char; function min(a,b : longint) : longint;{$ifdef USEINLINE}inline;{$endif} { return the minimal of a and b } begin if a<=b then min:=a else min:=b; end; function min(a,b : int64) : int64;{$ifdef USEINLINE}inline;{$endif} { return the minimal of a and b } begin if a<=b then min:=a else min:=b; end; function max(a,b : longint) : longint;{$ifdef USEINLINE}inline;{$endif} { return the maximum of a and b } begin if a>=b then max:=a else max:=b; end; function max(a,b : int64) : int64;{$ifdef USEINLINE}inline;{$endif} { return the maximum of a and b } begin if a>=b then max:=a else max:=b; end; Function SwapLong(x : longint): longint;{$ifdef USEINLINE}inline;{$endif} var y : word; z : word; Begin y := x shr 16; y := word(longint(y) shl 8) or (y shr 8); z := x and $FFFF; z := word(longint(z) shl 8) or (z shr 8); SwapLong := (longint(z) shl 16) or longint(y); End; Function SwapInt64(x : int64): int64;{$ifdef USEINLINE}inline;{$endif} Begin result:=swaplong(longint(hi(x))); result:=result or (swaplong(longint(lo(x))) shl 32); End; Function SwapQWord(x : qword) : qword;{$ifdef USEINLINE}inline;{$endif} Begin result:=swaplong(longint(hi(x))); result:=result or (swaplong(longint(lo(x))) shl 32); End; Function SwapWord(x : word): word;{$ifdef USEINLINE}inline;{$endif} var z : byte; Begin z := x shr 8; x := x and $ff; x := (x shl 8); SwapWord := x or z; End; function reverse_byte(b: byte): byte; const reverse_nible:array[0..15] of 0..15 = (%0000,%1000,%0100,%1100,%0010,%1010,%0110,%1110, %0001,%1001,%0101,%1101,%0011,%1011,%0111,%1111); begin reverse_byte:=(reverse_nible[b and $f] shl 4) or reverse_nible[b shr 4]; end; function align(i,a:longint):longint;{$ifdef USEINLINE}inline;{$endif} { return value aligned boundary } begin { for 0 and 1 no aligning is needed } if a<=1 then result:=i else begin if i<0 then result:=((i-a+1) div a) * a else result:=((i+a-1) div a) * a; end; end; function size_2_align(len : longint) : shortint; begin if len>16 then size_2_align:=32 else if len>8 then size_2_align:=16 else if len>4 then size_2_align:=8 else if len>2 then size_2_align:=4 else if len>1 then size_2_align:=2 else size_2_align:=1; end; function packedbitsloadsize(bitlen: int64) : int64; begin case bitlen of 1,2,4,8: result := 1; { 10 bits can never be split over 3 bytes via 1-8-1, because it } { always starts at a multiple of 10 bits. Same for the others. } 3,5,6,7,9,10,12,16: result := 2; {$ifdef cpu64bit} { performance penalty for unaligned 8 byte access is much } { higher than for unaligned 4 byte access, at least on ppc, } { so use 4 bytes even in some cases where a value could } { always loaded using a single 8 byte load (e.g. in case of } { 28 bit values) } 11,13,14,15,17..32: result := 4; else result := 8; {$else cpu64bit} else result := 4; {$endif cpu64bit} end; end; function isbetteralignedthan(new, org, limit: cardinal): boolean; var cnt: cardinal; begin cnt:=2; while (cnt <= limit) do begin if (org and (cnt-1)) > (new and (cnt-1)) then begin result:=true; exit; end else if (org and (cnt-1)) < (new and (cnt-1)) then begin result:=false; exit; end; cnt:=cnt*2; end; result:=false; end; function used_align(varalign,minalign,maxalign:shortint):shortint; begin { varalign : minimum alignment required for the variable minalign : Minimum alignment of this structure, 0 = undefined maxalign : Maximum alignment of this structure, 0 = undefined } if (minalign>0) and (varalign0) and (varalign>maxalign) then used_align:=maxalign else used_align:=varalign; end; end; procedure Replace(var s:string;s1:string;const s2:string); var last, i : longint; begin s1:=upper(s1); last:=0; repeat i:=pos(s1,upper(s)); if i=last then i:=0; if (i>0) then begin Delete(s,i,length(s1)); Insert(s2,s,i); last:=i; end; until (i=0); end; procedure Replace(var s:AnsiString;s1:string;const s2:AnsiString); var last, i : longint; begin s1:=upper(s1); last:=0; repeat i:=pos(s1,upper(s)); if i=last then i:=0; if (i>0) then begin Delete(s,i,length(s1)); Insert(s2,s,i); last:=i; end; until (i=0); end; procedure ReplaceCase(var s:string;const s1,s2:string); var last, i : longint; begin last:=0; repeat i:=pos(s1,s); if i=last then i:=0; if (i>0) then begin Delete(s,i,length(s1)); Insert(s2,s,i); last:=i; end; until (i=0); end; Function MatchPattern(const pattern,what:string):boolean; var found : boolean; i1,i2 : longint; begin i1:=0; i2:=0; if pattern='' then begin result:=(what=''); exit; end; found:=true; repeat inc(i1); if (i1>length(pattern)) then break; inc(i2); if (i2>length(what)) then break; case pattern[i1] of '?' : found:=true; '*' : begin found:=true; if (i1=length(pattern)) then i2:=length(what) else if (i1what[i2]) then begin if i21 then dec(i2); end; else found:=(pattern[i1]=what[i2]) or (what[i2]='?'); end; until not found; if found then begin found:=(i2>=length(what)) and ( (i1>length(pattern)) or ((i1=length(pattern)) and (pattern[i1]='*')) ); end; result:=found; end; function upper(const c : char) : char; { return uppercase of c } begin upper:=uppertbl[c]; end; function upper(const s : string) : string; { return uppercased string of s } var i : longint; begin for i:=1 to length(s) do upper[i]:=uppertbl[s[i]]; upper[0]:=s[0]; end; function upper(const s : ansistring) : ansistring; { return uppercased string of s } var i : longint; begin setlength(upper,length(s)); for i:=1 to length(s) do upper[i]:=uppertbl[s[i]]; end; function lower(const c : char) : char; { return lowercase of c } begin lower:=lowertbl[c]; end; function lower(const s : string) : string; { return lowercased string of s } var i : longint; begin for i:=1 to length(s) do lower[i]:=lowertbl[s[i]]; lower[0]:=s[0]; end; function lower(const s : ansistring) : ansistring; { return lowercased string of s } var i : longint; begin setlength(lower,length(s)); for i:=1 to length(s) do lower[i]:=lowertbl[s[i]]; end; procedure uppervar(var s : string); { uppercase string s } var i : longint; begin for i:=1 to length(s) do s[i]:=uppertbl[s[i]]; end; procedure initupperlower; var c : char; begin for c:=#0 to #255 do begin lowertbl[c]:=c; uppertbl[c]:=c; case c of 'A'..'Z' : lowertbl[c]:=char(byte(c)+32); 'a'..'z' : uppertbl[c]:=char(byte(c)-32); end; end; end; function DStr(l:longint):string; var TmpStr : string[32]; i : longint; begin Str(l,TmpStr); i:=Length(TmpStr); while (i>3) do begin dec(i,3); if TmpStr[i]<>'-' then insert('.',TmpStr,i+1); end; DStr:=TmpStr; end; function trimbspace(const s:string):string; { return s with all leading spaces and tabs removed } var i,j : longint; begin j:=1; i:=length(s); while (j0) and (s[i] in [#9,' ']) do dec(i); j:=1; while (j0) and (s[1] in ['''','"']) then begin quote:=s[1]; i:=1; while (i=0 } begin str(i,result); if i>=0 then result:='+'+result; end; function is_number(const s : string) : boolean;{$ifdef USEINLINE}inline;{$endif} { is string a correct number ? } var w : integer; l : longint; begin val(s,l,w); // remove warning l:=l; is_number:=(w=0); end; function ispowerof2(value : int64;out power : longint) : boolean; { return if value is a power of 2. And if correct return the power } var hl : int64; i : longint; begin if value and (value - 1) <> 0 then begin ispowerof2 := false; exit end; hl:=1; ispowerof2:=true; for i:=0 to 63 do begin if hl=value then begin power:=i; exit; end; hl:=hl shl 1; end; ispowerof2:=false; end; function nextpowerof2(value : int64; out power: longint) : int64; { returns the power of 2 >= value } var i : longint; begin result := 0; power := -1; if ((value <= 0) or (value >= $4000000000000000)) then exit; result := 1; for i:=0 to 63 do begin if result>=value then begin power := i; exit; end; result:=result shl 1; end; end; function backspace_quote(const s:string;const qchars:Tcharset):string; var i:byte; begin backspace_quote:=''; for i:=1 to length(s) do begin if (s[i]=#10) and (#10 in qchars) then backspace_quote:=backspace_quote+'\n' else if (s[i]=#13) and (#13 in qchars) then backspace_quote:=backspace_quote+'\r' else begin if s[i] in qchars then backspace_quote:=backspace_quote+'\'; backspace_quote:=backspace_quote+s[i]; end; end; end; function octal_quote(const s:string;const qchars:Tcharset):string; var i:byte; begin octal_quote:=''; for i:=1 to length(s) do begin if s[i] in qchars then begin if ord(s[i])<64 then octal_quote:=octal_quote+'\'+octstr(ord(s[i]),3) else octal_quote:=octal_quote+'\'+octstr(ord(s[i]),4); end else octal_quote:=octal_quote+s[i]; end; end; function maybequoted(const s:ansistring):ansistring; const {$IFDEF MSWINDOWS} FORBIDDEN_CHARS = ['!', '@', '#', '$', '%', '^', '&', '*', '(', ')', '{', '}', '''', '`', '~']; {$ELSE} FORBIDDEN_CHARS = ['!', '@', '#', '$', '%', '^', '&', '*', '(', ')', '{', '}', '''', ':', '\', '`', '~']; {$ENDIF} var s1 : ansistring; i : integer; quoted : boolean; begin quoted:=false; s1:='"'; for i:=1 to length(s) do begin case s[i] of '"' : begin quoted:=true; s1:=s1+'\"'; end; ' ', #128..#255 : begin quoted:=true; s1:=s1+s[i]; end; else begin if s[i] in FORBIDDEN_CHARS then quoted:=True; s1:=s1+s[i]; end; end; end; if quoted then maybequoted:=s1+'"' else maybequoted:=s; end; function maybequoted(const s:string):string; const {$IFDEF MSWINDOWS} FORBIDDEN_CHARS = ['!', '@', '#', '$', '%', '^', '&', '*', '(', ')', '{', '}', '''', '`', '~']; {$ELSE} FORBIDDEN_CHARS = ['!', '@', '#', '$', '%', '^', '&', '*', '(', ')', '{', '}', '''', ':', '\', '`', '~']; {$ENDIF} var s1 : string; i : integer; quoted : boolean; begin quoted:=false; s1:='"'; for i:=1 to length(s) do begin case s[i] of '"' : begin quoted:=true; s1:=s1+'\"'; end; ' ', #128..#255 : begin quoted:=true; s1:=s1+s[i]; end; else begin if s[i] in FORBIDDEN_CHARS then quoted:=True; s1:=s1+s[i]; end; end; end; if quoted then maybequoted:=s1+'"' else maybequoted:=s; end; function DePascalQuote(var s: ansistring): Boolean; var destPos, sourcePos, len: Integer; t: string; ch: Char; begin DePascalQuote:= false; len:= length(s); if (len >= 1) and (s[1] = '''') then begin {Remove quotes, exchange '' against ' } destPos := 0; sourcepos:=1; while (sourceposCount2 then Count:=Count2 else Count:=Count1; result := CompareChar(S1[1],S2[1], Count); if result=0 then result:=Count1-Count2; end; function CompareText(S1, S2: string): integer; begin UpperVar(S1); UpperVar(S2); Result:=CompareStr(S1,S2); end; {***************************************************************************** Ansistring (PChar+Length) *****************************************************************************} procedure ansistringdispose(var p : pchar;length : longint); begin if assigned(p) then begin freemem(p); p:=nil; end; end; { enable ansistring comparison } { 0 means equal } { 1 means p1 > p2 } { -1 means p1 < p2 } function compareansistrings(p1,p2 : pchar;length1,length2 : longint) : longint; var i,j : longint; begin compareansistrings:=0; j:=min(length1,length2); i:=0; while (ip2[i] then begin compareansistrings:=1; exit; end else if p1[i]length2 then compareansistrings:=1 else if length1'' then begin lzwptr:=127; t:=byte(s[1]); i:=2; u:=128; next_avail:=[]; while i<=length(s) do begin c:=s[i]; if not(t in next_avail) or (u>lzwptr) then goto l1; while (previous[u]<>t) or (data[u]<>c) do begin inc(u); if u>lzwptr then goto l1; end; t:=u; inc(i); continue; l1: {It's a pity that we still need those awfull tricks with this modern compiler. Without this performance of the entire procedure drops about 3 times.} inc(minilzw_encode[0]); minilzw_encode[length(minilzw_encode)]:=char(t); if lzwptr=255 then begin lzwptr:=127; next_avail:=[]; end else begin inc(lzwptr); data[lzwptr]:=c; previous[lzwptr]:=t; include(next_avail,t); end; t:=byte(c); u:=128; inc(i); end; inc(minilzw_encode[0]); minilzw_encode[length(minilzw_encode)]:=char(t); end; end; function minilzw_decode(const s:string):string; var oldc,newc,c:char; i,j:byte; data:array[128..255] of char; previous:array[128..255] of byte; lzwptr:byte; t:string; begin minilzw_decode:=''; fillchar(data,sizeof(data),#0); fillchar(previous,sizeof(previous),#0); if s<>'' then begin lzwptr:=127; oldc:=s[1]; c:=oldc; i:=2; minilzw_decode:=oldc; while i<=length(s) do begin newc:=s[i]; if byte(newc)>lzwptr then begin t:=c; c:=oldc; end else begin c:=newc; t:=''; end; while c>=#128 do begin inc(t[0]); t[length(t)]:=data[byte(c)]; byte(c):=previous[byte(c)]; end; inc(minilzw_decode[0]); minilzw_decode[length(minilzw_decode)]:=c; for j:=length(t) downto 1 do begin inc(minilzw_decode[0]); minilzw_decode[length(minilzw_decode)]:=t[j]; end; if lzwptr=255 then lzwptr:=127 else begin inc(lzwptr); previous[lzwptr]:=byte(oldc); data[lzwptr]:=c; end; oldc:=newc; inc(i); end; end; end; procedure defaulterror(i:longint); begin writeln('Internal error ',i); runerror(255); end; Function Nextafter(x,y:double):double; // Returns the double precision number closest to x in // the direction toward y. // Initial direct translation by Soeren Haastrup from // www.netlib.org/fdlibm/s_nextafter.c according to // ==================================================== // Copyright (C) 1993 by Sun Microsystems, Inc. All rights reserved. // Developed at SunSoft, a Sun Microsystems, Inc. business. // Permission to use, copy, modify, and distribute this // software is freely granted, provided that this notice // is preserved. // ==================================================== // and with all signaling policies preserved as is. type {$ifdef ENDIAN_LITTLE} twoword=record lo,hi:longword; // Little Endian split of a double. end; {$else} twoword=record hi,lo:longword; // Little Endian split of a double. end; {$endif} var hx,hy,ix,iy:longint; lx,ly:longword; Begin hx:=twoword(x).hi; // high and low words of x and y lx:=twoword(x).lo; hy:=twoword(y).hi; ly:=twoword(y).lo; ix:=hx and $7fffffff; // absolute values iy:=hy and $7fffffff; // Case x=NAN or y=NAN if ( (ix>=$7ff00000) and (((ix-$7ff00000) or lx) <> 0) ) or ( (iy>=$7ff00000) and (((iy-$7ff00000) OR ly) <> 0) ) then exit(x+y); // Case x=y if x=y then exit(x); // (implies Nextafter(0,-0) is 0 and not -0...) // Case x=0 if (ix or lx)=0 then begin twoword(x).hi:=hy and $80000000; // return +-minimalSubnormal twoword(x).lo:=1; y:=x*x; // set underflow flag (ignored in FPC as default) if y=x then exit(y) else exit(x); end; // all other cases if hx>=0 // x>0 then begin if (hx>hy) or ( (hx=hy) and (lx>ly) ) // x>y , return x-ulp then begin if (lx=0) then hx:=hx-1; lx:=lx-1; end else begin // x=0) or (hx>=hy) or ( (hx=hy) and (lx>ly)) // xy , return x+ulp lx:=lx+1; if lx=0 then hx:=hx+1; end end; // finally check if overflow or underflow just happend hy:=hx and $7ff00000; if (hy>= $7ff00000) then exit(x+x); // overflow and signal if (hy<$0010000) // underflow then begin y:=x*x; // raise underflow flag if y<>x then begin twoword(y).hi:=hx; twoword(y).lo:=lx; exit(y); end end; twoword(x).hi:=hx; twoword(x).lo:=lx; nextafter:=x; end; initialization internalerrorproc:=@defaulterror; initupperlower; end.