%
% GC.RED - Copying 2-space garbage collector for PSL
%
% Author: Eric Benson
% Computer Science Dept.
% University of Utah
% Date: 30 November 1981
% Copyright (c) 1981 Eric Benson
%
% <PSL.KERNEL>COPYING-GC.RED.2, 23-Mar-83 11:35:37, Edit by KESSLER
% Add HeadTrapBound Guys, so we can update the heap trap bound upon switch
% Edit by Cris Perdue, 15 Mar 1983 0937-PST
% Added missing comma as noted by Kessler.
% Edit by Cris Perdue, 16 Feb 1983 1409-PST
% Removed external declaration of HeapPreviousLast (the only occurrence)
% Now using "known-free-space" function and heap-warn-level
% Sets HeapTrapped to NIL now.
% Added check of Heap!-Warn!-Level after %Reclaim.
% <PSL.KERNEL>COPYING-GC.RED.6, 4-Oct-82 17:56:49, Edit by BENSON
% Added GCTime!*
fluid '(!*GC GCKnt!* GCTime!* Heap!-Warn!-Level);
LoadTime
<< GCKnt!* := 0;
GCTime!* := 0;
!*GC := T;
LispVar Heap!-Warn!-Level := 1000
>>;
on SysLisp;
CompileTime <<
syslsp smacro procedure PointerTagP X;
X > PosInt and X < Code;
syslsp smacro procedure WithinOldHeapPointer X;
X >= !%chipmunk!-kludge OldHeapLowerBound
and X <= !%chipmunk!-kludge OldHeapLast;
syslsp smacro procedure Mark X;
MkItem(Forward, X);
syslsp smacro procedure Marked X;
Tag X eq Forward;
syslsp smacro procedure MarkID X;
Field(SymNam X, TagStartingBit, TagBitLength) := Forward;
syslsp smacro procedure MarkedID X;
Tag SymNam X eq Forward;
syslsp smacro procedure ClearIDMark X;
Field(SymNam X, TagStartingBit, TagBitLength) := STR;
flag('(CopyFromAllBases CopyFromRange CopyFromBase CopyItem CopyItem1
MarkAndCopyFromID MakeIDFreeList GCStats),
'InternalFunction);
>>;
external WVar ST, StackLowerBound,
BndStkLowerBound, BndStkPtr,
HeapLast, HeapLowerBound, HeapUpperBound,
OldHeapLast, OldHeapLowerBound, OldHeapUpperBound,
HeapTrapBound, OldHeapTrapBound, HeapTrapped;
internal WVar StackLast, OldTime, OldSize;
syslsp procedure Reclaim();
!%Reclaim();
syslsp procedure !%Reclaim();
begin scalar Tmp1, Tmp2;
if LispVar !*GC then ErrorPrintF "*** Garbage collection starting";
BeforeGCSystemHook();
StackLast := MakeAddressFromStackPointer AdjustStackPointer(ST,
-FrameSize());
OldTime := TimC();
OldSize := HeapLast - HeapLowerBound;
LispVar GCKnt!* := LispVar GCKnt!* + 1;
OldHeapLast := HeapLast;
HeapLast := OldHeapLowerBound;
Tmp1 := HeapLowerBound;
Tmp2 := HeapUpperBound;
HeapLowerBound := OldHeapLowerBound;
HeapUpperBound := OldHeapUpperBound;
OldHeapLowerBound := Tmp1;
OldHeapUpperBound := Tmp2;
Tmp1 := HeapTrapBound;
HeapTrapBound := OldHeapTrapBound;
OldHeapTrapBound := Tmp1;
CopyFromAllBases();
MakeIDFreeList();
AfterGCSystemHook();
OldTime := TimC() - OldTime;
LispVar GCTime!* := Plus2(LispVar GCTime!*, OldTime);
if LispVar !*GC then GCStats();
HeapTrapped := NIL;
if IntInf Known!-Free!-Space() < IntInf (LispVar Heap!-Warning!-Level) then
ContinuableError(99, "Heap space low", NIL)
>>;
syslsp procedure MarkAndCopyFromID X;
% SymNam has to be copied before marking, since the mark destroys the tag
% No problem since it's only a string, can't reference itself.
<< CopyFromBase &SymNam X;
MarkID X;
CopyFromBase &SymPrp X;
CopyFromBase &SymVal X >>;
syslsp procedure CopyFromAllBases();
begin scalar LastSymbol, B;
MarkAndCopyFromID 128; % Mark NIL first
for I := 0 step 1 until 127 do
if not MarkedID I then MarkAndCopyFromID I;
for I := 0 step 1 until MaxObArray do
<< B := ObArray I;
if B > 0 and not MarkedID B then MarkAndCopyFromID B >>;
B := BndStkLowerBound;
while << B := AdjustBndStkPtr(B, 1);
B <= BndStkPtr >> do
CopyFromBase B;
for I := StackLowerBound step StackDirection*AddressingUnitsPerItem
until StackLast do
CopyFromBase I;
end;
syslsp procedure CopyFromRange(Lo, Hi);
begin scalar X, I;
X := Lo;
I := 0;
while X <= Hi do
<< CopyFromBase X;
I := I + 1;
X := &Lo[I] >>;
end;
syslsp procedure CopyFromBase P;
@P := CopyItem @P;
syslsp procedure CopyItem X;
begin scalar Typ, Info, Hdr;
Typ := Tag X;
if not PointerTagP Typ then return
<< if Typ = ID and not null X then % don't follow NIL, for speed
<< Info := IDInf X;
if not MarkedID Info then MarkAndCopyFromID Info >>;
X >>;
Info := Inf X;
if not WithinOldHeapPointer Info then return X;
Hdr := @Info;
if Marked Hdr then return MkItem(Typ, Inf Hdr);
return CopyItem1 X;
end;
syslsp procedure CopyItem1 S; % Copier for GC
begin scalar NewS, Len, Ptr, StripS;
return case Tag S of
PAIR:
<< Ptr := car S;
Rplaca(S, Mark(NewS := GtHeap PairPack()));
NewS[1] := CopyItem cdr S;
NewS[0] := CopyItem Ptr;
MkPAIR NewS >>;
STR:
<< @StrInf S := Mark(NewS := CopyString S);
NewS >>;
VECT:
<< StripS := VecInf S;
Len := VecLen StripS;
@StripS := Mark(Ptr := GtVECT Len);
for I := 0 step 1 until Len do
VecItm(Ptr, I) := CopyItem VecItm(StripS, I);
MkVEC Ptr >>;
EVECT:
<< StripS := VecInf S;
Len := VecLen StripS;
@StripS := Mark(Ptr := GtVECT Len);
for I := 0 step 1 until Len do
VecItm(Ptr, I) := CopyItem VecItm(StripS, I);
MkItem(EVECT, Ptr) >>;
WRDS, FIXN, FLTN, BIGN:
<< Ptr := Tag S;
@Inf S := Mark(NewS := CopyWRDS S);
MkItem(Ptr, NewS) >>;
default:
FatalError "Unexpected tag found during garbage collection";
end;
end;
syslsp procedure MakeIDFreeList();
begin scalar Previous;
for I := 0 step 1 until 128 do
ClearIDMark I;
Previous := 129;
while MarkedID Previous and Previous <= MaxSymbols do
<< ClearIDMark Previous;
Previous := Previous + 1 >>;
if Previous >= MaxSymbols then
NextSymbol := 0
else
NextSymbol := Previous; % free list starts here
for I := Previous + 1 step 1 until MaxSymbols do
if MarkedID I then ClearIDMark I
else
<< SymNam Previous := I;
Previous := I >>;
SymNam Previous := 0; % end of free list
end;
syslsp procedure GCStats();
<< ErrorPrintF("*** GC %w: time %d ms, %d recovered, %d free",
LispVar GCKnt!*, OldTime,
(OldSize - (HeapLast - HeapLowerBound))/AddressingUnitsPerItem,
Known!-Free!-Space() ) >>;
off SysLisp;
END;