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fixes_3_2
fpc/rtl/objpas/classes/bits.inc
marco 308b61522c --- Merging r41185 into '.': 
U    rtl/objpas/classes/bits.inc
--- Recording mergeinfo for merge of r41185 into '.':
 U   .

# revisions: 41185

git-svn-id: branches/fixes_3_2@41186 -
2019-02-03 14:07:38 +00:00

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{
This file is part of the Free Component Library (FCL)
Copyright (c) 1999-2008 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.
**********************************************************************}
{****************************************************************************}
{* TBits *}
{****************************************************************************}
Procedure BitsError (const Msg : string);
begin
Raise EBitsError.Create(Msg) at get_caller_addr(get_frame), get_caller_frame(get_frame);
end;
Procedure BitsErrorFmt (const Msg : string; const Args : array of const);
begin
Raise EBitsError.CreateFmt(Msg,args) at get_caller_addr(get_frame), get_caller_frame(get_frame);
end;
{Min function for Longint}
Function liMin(X, Y: Longint): Longint;
begin
Result := X;
if X > Y then Result := Y;
end;
procedure TBits.CheckBitIndex (Bit : longint;CurrentSize : Boolean);
begin
if (bit<0) or (CurrentSize and (Bit >= FBSize)) then
BitsErrorFmt(SErrInvalidBitIndex,[bit]);
if (bit>=MaxBitFlags) then
BitsErrorFmt(SErrIndexTooLarge,[bit])
end;
{ ************* functions to match TBits class ************* }
procedure TBits.setSize(value: longint);
var
newSize, loop: LongInt;
begin
CheckBitIndex(value, false);
if value <> 0 then
newSize := (value shr BITSHIFT) + 1
else
newSize := 0;
if newSize <> FSize then
begin
ReAllocMem(FBits, newSize * SizeOf(longint));
if FBits <> nil then
begin
if newSize > FSize then
for loop := FSize to newSize - 1 do
FBits^[loop] := 0;
end
else if newSize > 0 then
BitsError(SErrOutOfMemory); { isn't ReallocMem supposed to throw EOutOfMemory? }
FSize := newSize;
end;
FBSize := value;
end;
procedure TBits.SetBit(bit : longint; value : Boolean);
var
n: Integer;
begin
grow(bit+1); { validates bit range and adjusts FBSize if necessary }
n := bit shr BITSHIFT;
if value then
FBits^[n] := FBits^[n] or (longword(1) shl (bit and MASK))
else
FBits^[n] := FBits^[n] and not (longword(1) shl (bit and MASK));
end;
function TBits.OpenBit : longint;
var
loop : longint;
loop2 : longint;
begin
result := -1; {should only occur if the whole array is set}
{ map 0 to -1, 1..32 to 0, etc }
for loop := 0 to ((FBSize + MASK) shr BITSHIFT) - 1 do
begin
if FBits^[loop] <> $FFFFFFFF then
begin
for loop2 := 0 to MASK do
begin
if (FBits^[loop] and (longint(1) shl loop2)) = 0 then
begin
result := (loop shl BITSHIFT) + loop2;
if result > FBSize then
result := FBSize;
Exit;
end;
end;
end;
end;
if FSize < MaxBitRec then
result := FBSize; {first bit of next record}
end;
{ ******************** TBits ***************************** }
constructor TBits.Create(theSize : longint = 0 );
begin
FSize := 0;
FBSize := 0;
FBits := nil;
findIndex := -1;
findState := True; { no reason just setting it to something }
if TheSize > 0 then grow(theSize);
end;
destructor TBits.Destroy;
begin
if FBits <> nil then
FreeMem(FBits, FSize * SizeOf(longint));
FBits := nil;
inherited Destroy;
end;
procedure TBits.grow(nbit: longint);
begin
if nbit > FBSize then
SetSize(nbit);
end;
function TBits.getFSize : longint;
begin
result := FSize;
end;
procedure TBits.seton(bit : longint);
begin
SetBit(bit, True);
end;
procedure TBits.clear(bit : longint);
begin
SetBit(bit, False);
end;
procedure TBits.clearall;
var
loop : longint;
begin
for loop := 0 to FSize - 1 do
FBits^[loop] := 0;
{ don't clear FBSize here, it will cause exceptions on subsequent reading bit values }
{ use 'Size := 0' to reset everything and deallocate storage }
end;
function TBits.get(bit : longint) : Boolean;
var
n : longint;
begin
CheckBitIndex(bit,true);
result := False;
n := bit shr BITSHIFT;
if (n < FSize) then
result := (FBits^[n] and (longint(1) shl (bit and MASK))) <> 0;
end;
procedure TBits.CopyBits(BitSet : TBits);
begin
setSize(bitset.Size);
Move(bitset.FBits^,FBits^,FSize*SizeOf(cardinal));
end;
procedure TBits.andbits(bitset : TBits);
var
n : longint;
loop : longint;
begin
if FSize < bitset.getFSize then
n := FSize - 1
else
n := bitset.getFSize - 1;
for loop := 0 to n do
FBits^[loop] := FBits^[loop] and bitset.FBits^[loop];
for loop := n + 1 to FSize - 1 do
FBits^[loop] := 0;
end;
procedure TBits.notbits(bitset : TBits);
var
n : longint;
loop : longint;
begin
if FSize < bitset.getFSize then
n := FSize - 1
else
n := bitset.getFSize - 1;
for loop := 0 to n do
FBits^[loop] := FBits^[loop] xor bitset.FBits^[loop];
end;
procedure TBits.orbits(bitset : TBits);
var
loop : longint;
begin
grow(bitset.Size);
for loop := 0 to bitset.getFSize-1 do
FBits^[loop] := FBits^[loop] or bitset.FBits^[loop];
end;
procedure TBits.xorbits(bitset : TBits);
var
loop : longint;
begin
grow(bitset.Size);
for loop := 0 to bitset.getFSize-1 do
FBits^[loop] := FBits^[loop] xor bitset.FBits^[loop];
end;
function TBits.Equals(Obj : TObject): Boolean;
begin
if Obj is TBits then
Result := Equals(TBits(Obj))
else
Result := inherited Equals(Obj);
end;
function TBits.equals(bitset : TBits) : Boolean;
var
n : longint;
loop : longint;
begin
result := False;
if FSize < bitset.getFSize then
n := FSize - 1
else
n := bitset.getFSize - 1;
for loop := 0 to n do
if FBits^[loop] <> bitset.FBits^[loop] then exit;
if FSize - 1 > n then
begin
for loop := n to FSize - 1 do
if FBits^[loop] <> 0 then exit;
end
else if bitset.getFSize - 1 > n then
for loop := n to bitset.getFSize - 1 do
if bitset.FBits^[loop] <> 0 then exit;
result := True; {passed all tests}
end;
{ us this in place of calling FindFirstBit. It sets the current }
{ index used by FindNextBit and FindPrevBit }
procedure TBits.SetIndex(index : longint);
begin
CheckBitIndex(index,true);
findIndex := index;
end;
{ When state is set to True it looks for bits that are turned On (1) }
{ and when it is set to False it looks for bits that are turned }
{ off (0). }
function TBits.FindFirstBit(state : boolean) : longint;
var
loop : longint;
loop2 : longint;
startIndex : longint;
stopIndex : Longint;
compareVal : cardinal;
begin
result := -1; {should only occur if none are set}
findState := state;
if state = False then
compareVal := $FFFFFFFF { looking for off bits }
else
compareVal := $00000000; { looking for on bits }
for loop := 0 to FSize - 1 do
begin
if FBits^[loop] <> compareVal then
begin
startIndex := loop * 32;
stopIndex:= liMin(StartIndex+31,FBSize -1);
for loop2 := startIndex to stopIndex do
begin
if get(loop2) = state then
begin
result := loop2;
break; { use this as the index to return }
end;
end;
break; {stop looking for bit in records }
end;
end;
findIndex := result;
end;
function TBits.FindNextBit : longint;
var
loop : longint;
begin
result := -1; { will occur only if no other bits set to }
{ current findState }
if findIndex > -1 then { must have called FindFirstBit first }
begin { or set the start index }
for loop := findIndex + 1 to FBSize-1 do
begin
if get(loop) = findState then
begin
result := loop;
break;
end;
end;
findIndex := result;
end;
end;
function TBits.FindPrevBit : longint;
var
loop : longint;
begin
result := -1; { will occur only if no other bits set to }
{ current findState }
if findIndex > -1 then { must have called FindFirstBit first }
begin { or set the start index }
for loop := findIndex - 1 downto 0 do
begin
if get(loop) = findState then
begin
result := loop;
break;
end;
end;
findIndex := result;
end;
end;
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