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313 lines
8.6 KiB
313 lines
8.6 KiB
// -*- c-basic-offset: 2 -*-
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/*
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* This file is part of the KDE libraries
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* Copyright (C) 2003 Apple Computer, Inc.
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*
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* This library is free software; you can redistribute it and/or
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* modify it under the terms of the GNU Lesser General Public
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* License as published by the Free Software Foundation; either
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* version 2 of the License, or (at your option) any later version.
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*
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* This library is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
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* Lesser General Public License for more details.
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*
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* You should have received a copy of the GNU Lesser General Public
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* License along with this library; if not, write to the Free Software
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* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
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*
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*/
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#include "collector.h"
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#include "value.h"
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#include "internal.h"
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#ifndef MAX
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#define MAX(a,b) ((a) > (b) ? (a) : (b))
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#endif
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namespace KJS {
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// tunable parameters
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const int MINIMUM_CELL_SIZE = 56;
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const int BLOCK_SIZE = (8 * 4096);
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const int SPARE_EMPTY_BLOCKS = 2;
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const int MIN_ARRAY_SIZE = 14;
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const int GROWTH_FACTOR = 2;
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const int LOW_WATER_FACTOR = 4;
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const int ALLOCATIONS_PER_COLLECTION = 1000;
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// derived constants
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const int CELL_ARRAY_LENGTH = (MINIMUM_CELL_SIZE / sizeof(double)) + (MINIMUM_CELL_SIZE % sizeof(double) != 0 ? sizeof(double) : 0);
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const int CELL_SIZE = CELL_ARRAY_LENGTH * sizeof(double);
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const int CELLS_PER_BLOCK = ((BLOCK_SIZE * 8 - sizeof(int) * 8 - sizeof(void *) * 8) / (CELL_SIZE * 8));
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struct CollectorCell {
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double memory[CELL_ARRAY_LENGTH];
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};
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struct CollectorBlock {
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CollectorCell cells[CELLS_PER_BLOCK];
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int usedCells;
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CollectorCell *freeList;
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};
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struct CollectorHeap {
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CollectorBlock **blocks;
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int numBlocks;
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int usedBlocks;
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int firstBlockWithPossibleSpace;
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CollectorCell **oversizeCells;
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int numOversizeCells;
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int usedOversizeCells;
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int numLiveObjects;
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int numAllocationsSinceLastCollect;
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};
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static CollectorHeap heap = {NULL, 0, 0, 0, NULL, 0, 0, 0, 0};
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bool Collector::memoryFull = false;
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void* Collector::allocate(size_t s)
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{
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if (s == 0)
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return 0L;
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// collect if needed
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if (++heap.numAllocationsSinceLastCollect >= ALLOCATIONS_PER_COLLECTION) {
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collect();
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}
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if (s > (unsigned)CELL_SIZE) {
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// oversize allocator
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if (heap.usedOversizeCells == heap.numOversizeCells) {
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heap.numOversizeCells = MAX(MIN_ARRAY_SIZE, heap.numOversizeCells * GROWTH_FACTOR);
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heap.oversizeCells = (CollectorCell **)realloc(heap.oversizeCells, heap.numOversizeCells * sizeof(CollectorCell *));
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}
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void *newCell = malloc(s);
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heap.oversizeCells[heap.usedOversizeCells] = (CollectorCell *)newCell;
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heap.usedOversizeCells++;
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heap.numLiveObjects++;
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((ValueImp *)(newCell))->_flags = 0;
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return newCell;
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}
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// slab allocator
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CollectorBlock *targetBlock = NULL;
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int i;
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for (i = heap.firstBlockWithPossibleSpace; i < heap.usedBlocks; i++) {
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if (heap.blocks[i]->usedCells < CELLS_PER_BLOCK) {
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targetBlock = heap.blocks[i];
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break;
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}
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}
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heap.firstBlockWithPossibleSpace = i;
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if (targetBlock == NULL) {
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// didn't find one, need to allocate a new block
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if (heap.usedBlocks == heap.numBlocks) {
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heap.numBlocks = MAX(MIN_ARRAY_SIZE, heap.numBlocks * GROWTH_FACTOR);
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heap.blocks = (CollectorBlock **)realloc(heap.blocks, heap.numBlocks * sizeof(CollectorBlock *));
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}
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targetBlock = (CollectorBlock *)calloc(1, sizeof(CollectorBlock));
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targetBlock->freeList = targetBlock->cells;
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heap.blocks[heap.usedBlocks] = targetBlock;
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heap.usedBlocks++;
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}
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// find a free spot in the block and detach it from the free list
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CollectorCell *newCell = targetBlock->freeList;
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ValueImp *imp = (ValueImp*)newCell;
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if (imp->_vd != NULL) {
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targetBlock->freeList = (CollectorCell*)(imp->_vd);
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} else if (targetBlock->usedCells == (CELLS_PER_BLOCK - 1)) {
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// last cell in this block
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targetBlock->freeList = NULL;
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} else {
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// all next pointers are initially 0, meaning "next cell"
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targetBlock->freeList = newCell + 1;
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}
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targetBlock->usedCells++;
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heap.numLiveObjects++;
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((ValueImp *)(newCell))->_flags = 0;
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return (void *)(newCell);
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}
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bool Collector::collect()
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{
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bool deleted = false;
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// MARK: first mark all referenced objects recursively
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// starting out from the set of root objects
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if (InterpreterImp::s_hook) {
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InterpreterImp *scr = InterpreterImp::s_hook;
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do {
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//fprintf( stderr, "Collector marking interpreter %p\n",(void*)scr);
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scr->mark();
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scr = scr->next;
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} while (scr != InterpreterImp::s_hook);
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}
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// mark any other objects that we wouldn't delete anyway
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for (int block = 0; block < heap.usedBlocks; block++) {
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int minimumCellsToProcess = heap.blocks[block]->usedCells;
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CollectorBlock *curBlock = heap.blocks[block];
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for (int cell = 0; cell < CELLS_PER_BLOCK; cell++) {
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if (minimumCellsToProcess < cell) {
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goto skip_block_mark;
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}
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ValueImp *imp = (ValueImp *)(curBlock->cells + cell);
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if (!(imp->_flags & ValueImp::VI_DESTRUCTED)) {
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if ((imp->_flags & (ValueImp::VI_CREATED|ValueImp::VI_MARKED)) == ValueImp::VI_CREATED &&
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((imp->_flags & ValueImp::VI_GCALLOWED) == 0 || imp->refcount != 0)) {
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imp->mark();
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}
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} else {
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minimumCellsToProcess++;
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}
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}
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skip_block_mark: ;
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}
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for (int cell = 0; cell < heap.usedOversizeCells; cell++) {
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ValueImp *imp = (ValueImp *)heap.oversizeCells[cell];
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if ((imp->_flags & (ValueImp::VI_CREATED|ValueImp::VI_MARKED)) == ValueImp::VI_CREATED &&
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((imp->_flags & ValueImp::VI_GCALLOWED) == 0 || imp->refcount != 0)) {
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imp->mark();
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}
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}
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// SWEEP: delete everything with a zero refcount (garbage) and unmark everything else
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int emptyBlocks = 0;
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for (int block = 0; block < heap.usedBlocks; block++) {
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CollectorBlock *curBlock = heap.blocks[block];
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int minimumCellsToProcess = curBlock->usedCells;
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for (int cell = 0; cell < CELLS_PER_BLOCK; cell++) {
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if (minimumCellsToProcess < cell) {
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goto skip_block_sweep;
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}
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ValueImp *imp = (ValueImp *)(curBlock->cells + cell);
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if (!(imp->_flags & ValueImp::VI_DESTRUCTED)) {
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if (!imp->refcount && imp->_flags == (ValueImp::VI_GCALLOWED | ValueImp::VI_CREATED)) {
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//fprintf( stderr, "Collector::deleting ValueImp %p (%s)\n", (void*)imp, typeid(*imp).name());
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// emulate destructing part of 'operator delete()'
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imp->~ValueImp();
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curBlock->usedCells--;
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heap.numLiveObjects--;
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deleted = true;
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// put it on the free list
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imp->_vd = (ValueImpPrivate*)curBlock->freeList;
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curBlock->freeList = (CollectorCell *)imp;
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} else {
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imp->_flags &= ~ValueImp::VI_MARKED;
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}
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} else {
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minimumCellsToProcess++;
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}
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}
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skip_block_sweep:
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if (heap.blocks[block]->usedCells == 0) {
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emptyBlocks++;
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if (emptyBlocks > SPARE_EMPTY_BLOCKS) {
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#ifndef DEBUG_COLLECTOR
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free(heap.blocks[block]);
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#endif
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// swap with the last block so we compact as we go
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heap.blocks[block] = heap.blocks[heap.usedBlocks - 1];
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heap.usedBlocks--;
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block--; // Don't move forward a step in this case
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if (heap.numBlocks > MIN_ARRAY_SIZE && heap.usedBlocks < heap.numBlocks / LOW_WATER_FACTOR) {
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heap.numBlocks = heap.numBlocks / GROWTH_FACTOR;
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heap.blocks = (CollectorBlock **)realloc(heap.blocks, heap.numBlocks * sizeof(CollectorBlock *));
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}
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}
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}
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}
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if (deleted) {
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heap.firstBlockWithPossibleSpace = 0;
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}
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int cell = 0;
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while (cell < heap.usedOversizeCells) {
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ValueImp *imp = (ValueImp *)heap.oversizeCells[cell];
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if (!imp->refcount &&
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imp->_flags == (ValueImp::VI_GCALLOWED | ValueImp::VI_CREATED)) {
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imp->~ValueImp();
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#ifndef DEBUG_COLLECTOR
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free((void *)imp);
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#endif
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// swap with the last oversize cell so we compact as we go
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heap.oversizeCells[cell] = heap.oversizeCells[heap.usedOversizeCells - 1];
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heap.usedOversizeCells--;
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deleted = true;
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heap.numLiveObjects--;
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if (heap.numOversizeCells > MIN_ARRAY_SIZE && heap.usedOversizeCells < heap.numOversizeCells / LOW_WATER_FACTOR) {
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heap.numOversizeCells = heap.numOversizeCells / GROWTH_FACTOR;
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heap.oversizeCells = (CollectorCell **)realloc(heap.oversizeCells, heap.numOversizeCells * sizeof(CollectorCell *));
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}
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} else {
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imp->_flags &= ~ValueImp::VI_MARKED;
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cell++;
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}
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}
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heap.numAllocationsSinceLastCollect = 0;
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memoryFull = (heap.numLiveObjects >= KJS_MEM_LIMIT);
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return deleted;
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}
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int Collector::size()
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{
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return heap.numLiveObjects;
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}
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#ifdef KJS_DEBUG_MEM
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void Collector::finalCheck()
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{
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}
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#endif
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} // namespace KJS
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