/* -*- Mode: c++; c-basic-offset: 4; tab-width: 40; indent-tabs-mode: nil -*- */ /* vim: set ts=40 sw=4 et tw=99: */ /* ***** BEGIN LICENSE BLOCK ***** * Version: MPL 1.1/GPL 2.0/LGPL 2.1 * * The contents of this file are subject to the Mozilla Public License Version * 1.1 (the "License"); you may not use this file except in compliance with * the License. You may obtain a copy of the License at * http://www.mozilla.org/MPL/ * * Software distributed under the License is distributed on an "AS IS" basis, * WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License * for the specific language governing rights and limitations under the * License. * * The Original Code is the Mozilla SpiderMonkey property tree implementation * * The Initial Developer of the Original Code is * Mozilla Foundation * Portions created by the Initial Developer are Copyright (C) 2002-2010 * the Initial Developer. All Rights Reserved. * * Contributor(s): * Brendan Eich * * Alternatively, the contents of this file may be used under the terms of * either of the GNU General Public License Version 2 or later (the "GPL"), * or the GNU Lesser General Public License Version 2.1 or later (the "LGPL"), * in which case the provisions of the GPL or the LGPL are applicable instead * of those above. If you wish to allow use of your version of this file only * under the terms of either the GPL or the LGPL, and not to allow others to * use your version of this file under the terms of the MPL, indicate your * decision by deleting the provisions above and replace them with the notice * and other provisions required by the GPL or the LGPL. If you do not delete * the provisions above, a recipient may use your version of this file under * the terms of any one of the MPL, the GPL or the LGPL. * * ***** END LICENSE BLOCK ***** */ #include "jstypes.h" #include "jsarena.h" #include "jsdhash.h" #include "jsprf.h" #include "jsapi.h" #include "jscntxt.h" #include "jsgc.h" #include "jspropertytree.h" #include "jsscope.h" #include "jsscopeinlines.h" using namespace js; struct PropertyRootKey { const JSScopeProperty *firstProp; uint32 emptyShape; PropertyRootKey(const JSScopeProperty *child, uint32 shape) : firstProp(child), emptyShape(shape) {} static JSDHashNumber hash(JSDHashTable *table, const void *key) { const PropertyRootKey *rkey = (const PropertyRootKey *)key; return rkey->firstProp->hash() ^ rkey->emptyShape; } }; struct PropertyRootEntry : public JSDHashEntryHdr { JSScopeProperty *firstProp; uint32 emptyShape; uint32 newEmptyShape; static JSBool match(JSDHashTable *table, const JSDHashEntryHdr *hdr, const void *key) { const PropertyRootEntry *rent = (const PropertyRootEntry *)hdr; const PropertyRootKey *rkey = (const PropertyRootKey *)key; return rent->firstProp->matches(rkey->firstProp) && rent->emptyShape == rkey->emptyShape; } }; static const JSDHashTableOps PropertyRootHashOps = { JS_DHashAllocTable, JS_DHashFreeTable, PropertyRootKey::hash, PropertyRootEntry::match, JS_DHashMoveEntryStub, JS_DHashClearEntryStub, JS_DHashFinalizeStub, NULL }; static JSDHashNumber HashScopeProperty(JSDHashTable *table, const void *key) { const JSScopeProperty *sprop = (const JSScopeProperty *)key; return sprop->hash(); } static JSBool MatchScopeProperty(JSDHashTable *table, const JSDHashEntryHdr *hdr, const void *key) { const JSPropertyTreeEntry *entry = (const JSPropertyTreeEntry *)hdr; const JSScopeProperty *sprop = entry->child; const JSScopeProperty *kprop = (const JSScopeProperty *)key; return sprop->matches(kprop); } static const JSDHashTableOps PropertyTreeHashOps = { JS_DHashAllocTable, JS_DHashFreeTable, HashScopeProperty, MatchScopeProperty, JS_DHashMoveEntryStub, JS_DHashClearEntryStub, JS_DHashFinalizeStub, NULL }; bool PropertyTree::init() { if (!JS_DHashTableInit(&hash, &PropertyRootHashOps, NULL, sizeof(PropertyRootEntry), JS_DHASH_MIN_SIZE)) { hash.ops = NULL; return false; } JS_InitArenaPool(&arenaPool, "properties", 256 * sizeof(JSScopeProperty), sizeof(void *), NULL); emptyShapeChanges = 0; return true; } void PropertyTree::finish() { if (hash.ops) { JS_DHashTableFinish(&hash); hash.ops = NULL; } JS_FinishArenaPool(&arenaPool); } /* * NB: Called with cx->runtime->gcLock held if gcLocked is true. * On failure, return null after unlocking the GC and reporting out of memory. */ JSScopeProperty * PropertyTree::newScopeProperty(JSContext *cx, bool gcLocked) { JSScopeProperty *sprop; if (!gcLocked) JS_LOCK_GC(cx->runtime); sprop = freeList; if (sprop) { sprop->removeFree(); } else { JS_ARENA_ALLOCATE_CAST(sprop, JSScopeProperty *, &arenaPool, sizeof(JSScopeProperty)); if (!sprop) { JS_UNLOCK_GC(cx->runtime); JS_ReportOutOfMemory(cx); return NULL; } } if (!gcLocked) JS_UNLOCK_GC(cx->runtime); JS_RUNTIME_METER(cx->runtime, livePropTreeNodes); JS_RUNTIME_METER(cx->runtime, totalPropTreeNodes); return sprop; } #define CHUNKY_KIDS_TAG ((jsuword)1) #define KIDS_IS_CHUNKY(kids) ((jsuword)(kids) & CHUNKY_KIDS_TAG) #define KIDS_TO_CHUNK(kids) ((PropTreeKidsChunk *) \ ((jsuword)(kids) & ~CHUNKY_KIDS_TAG)) #define CHUNK_TO_KIDS(chunk) ((JSScopeProperty *) \ ((jsuword)(chunk) | CHUNKY_KIDS_TAG)) #define MAX_KIDS_PER_CHUNK 10 #define CHUNK_HASH_THRESHOLD 30 struct PropTreeKidsChunk { JSScopeProperty *kids[MAX_KIDS_PER_CHUNK]; JSDHashTable *table; PropTreeKidsChunk *next; }; /* * NB: Called with cx->runtime->gcLock held, always. * On failure, return null after unlocking the GC and reporting out of memory. */ static PropTreeKidsChunk * NewPropTreeKidsChunk(JSContext *cx) { PropTreeKidsChunk *chunk; chunk = (PropTreeKidsChunk *) js_calloc(sizeof *chunk); if (!chunk) { JS_UNLOCK_GC(cx->runtime); JS_ReportOutOfMemory(cx); return NULL; } JS_ASSERT(((jsuword)chunk & CHUNKY_KIDS_TAG) == 0); JS_RUNTIME_METER(cx->runtime, propTreeKidsChunks); return chunk; } static PropTreeKidsChunk * DestroyPropTreeKidsChunk(JSContext *cx, PropTreeKidsChunk *chunk) { JS_RUNTIME_UNMETER(cx->runtime, propTreeKidsChunks); if (chunk->table) JS_DHashTableDestroy(chunk->table); PropTreeKidsChunk *nextChunk = chunk->next; js_free(chunk); return nextChunk; } /* * NB: Called with cx->runtime->gcLock held, always. * On failure, return null after unlocking the GC and reporting out of memory. */ bool PropertyTree::insertChild(JSContext *cx, JSScopeProperty *parent, JSScopeProperty *child) { JS_ASSERT(parent); JS_ASSERT(!child->parent); JS_ASSERT(!JSBOXEDWORD_IS_NULL(parent->id)); JS_ASSERT(!JSBOXEDWORD_IS_NULL(child->id)); JSScopeProperty **childp = &parent->kids; if (JSScopeProperty *kids = *childp) { JSScopeProperty *sprop; PropTreeKidsChunk *chunk; if (!KIDS_IS_CHUNKY(kids)) { sprop = kids; JS_ASSERT(sprop != child); if (sprop->matches(child)) { /* * Duplicate child created while racing to getChild on the same * node label. See PropertyTree::getChild, further below. */ JS_RUNTIME_METER(cx->runtime, duplicatePropTreeNodes); } chunk = NewPropTreeKidsChunk(cx); if (!chunk) return false; parent->kids = CHUNK_TO_KIDS(chunk); chunk->kids[0] = sprop; childp = &chunk->kids[1]; } else { PropTreeKidsChunk **chunkp; chunk = KIDS_TO_CHUNK(kids); if (JSDHashTable *table = chunk->table) { JSPropertyTreeEntry *entry = (JSPropertyTreeEntry *) JS_DHashTableOperate(table, child, JS_DHASH_ADD); if (!entry) { JS_UNLOCK_GC(cx->runtime); JS_ReportOutOfMemory(cx); return false; } if (!entry->child) { entry->child = child; while (chunk->next) chunk = chunk->next; for (uintN i = 0; i < MAX_KIDS_PER_CHUNK; i++) { childp = &chunk->kids[i]; sprop = *childp; if (!sprop) goto insert; } chunkp = &chunk->next; goto new_chunk; } } do { for (uintN i = 0; i < MAX_KIDS_PER_CHUNK; i++) { childp = &chunk->kids[i]; sprop = *childp; if (!sprop) goto insert; JS_ASSERT(sprop != child); if (sprop->matches(child)) { /* * Duplicate child, see comment above. In this * case, we must let the duplicate be inserted at * this level in the tree, so we keep iterating, * looking for an empty slot in which to insert. */ JS_ASSERT(sprop != child); JS_RUNTIME_METER(cx->runtime, duplicatePropTreeNodes); } } chunkp = &chunk->next; } while ((chunk = *chunkp) != NULL); new_chunk: chunk = NewPropTreeKidsChunk(cx); if (!chunk) return false; *chunkp = chunk; childp = &chunk->kids[0]; } } insert: *childp = child; child->parent = parent; return true; } /* NB: Called with cx->runtime->gcLock held. */ void PropertyTree::removeChild(JSContext *cx, JSScopeProperty *child) { uintN i, j; JSPropertyTreeEntry *entry; JSScopeProperty *parent = child->parent; JS_ASSERT(parent); JS_ASSERT(!JSBOXEDWORD_IS_NULL(parent->id)); JSScopeProperty *kids = parent->kids; if (!KIDS_IS_CHUNKY(kids)) { JSScopeProperty *kid = kids; if (kid == child) parent->kids = NULL; return; } PropTreeKidsChunk *list = KIDS_TO_CHUNK(kids); PropTreeKidsChunk *chunk = list; PropTreeKidsChunk **chunkp = &list; JSDHashTable *table = chunk->table; PropTreeKidsChunk *freeChunk = NULL; do { for (i = 0; i < MAX_KIDS_PER_CHUNK; i++) { if (chunk->kids[i] == child) { PropTreeKidsChunk *lastChunk = chunk; if (!lastChunk->next) { j = i + 1; } else { j = 0; do { chunkp = &lastChunk->next; lastChunk = *chunkp; } while (lastChunk->next); } for (; j < MAX_KIDS_PER_CHUNK; j++) { if (!lastChunk->kids[j]) break; } --j; if (chunk != lastChunk || j > i) chunk->kids[i] = lastChunk->kids[j]; lastChunk->kids[j] = NULL; if (j == 0) { *chunkp = NULL; if (!list) parent->kids = NULL; freeChunk = lastChunk; } goto out; } } chunkp = &chunk->next; } while ((chunk = *chunkp) != NULL); out: if (table) { entry = (JSPropertyTreeEntry *) JS_DHashTableOperate(table, child, JS_DHASH_LOOKUP); if (entry->child == child) JS_DHashTableRawRemove(table, &entry->hdr); } if (freeChunk) DestroyPropTreeKidsChunk(cx, freeChunk); } void PropertyTree::emptyShapeChange(uint32 oldEmptyShape, uint32 newEmptyShape) { if (oldEmptyShape == newEmptyShape) return; PropertyRootEntry *rent = (PropertyRootEntry *) hash.entryStore; PropertyRootEntry *rend = rent + JS_DHASH_TABLE_SIZE(&hash); while (rent < rend) { if (rent->emptyShape == oldEmptyShape) rent->newEmptyShape = newEmptyShape; rent++; } ++emptyShapeChanges; } static JSDHashTable * HashChunks(PropTreeKidsChunk *chunk, uintN n) { JSDHashTable *table; uintN i; JSScopeProperty *sprop; JSPropertyTreeEntry *entry; table = JS_NewDHashTable(&PropertyTreeHashOps, NULL, sizeof(JSPropertyTreeEntry), JS_DHASH_DEFAULT_CAPACITY(n + 1)); if (!table) return NULL; do { for (i = 0; i < MAX_KIDS_PER_CHUNK; i++) { sprop = chunk->kids[i]; if (!sprop) break; entry = (JSPropertyTreeEntry *) JS_DHashTableOperate(table, sprop, JS_DHASH_ADD); entry->child = sprop; } } while ((chunk = chunk->next) != NULL); return table; } /* * Called without cx->runtime->gcLock held. This function acquires that lock * only when inserting a new child. Thus there may be races to find or add a * node that result in duplicates. We expect such races to be rare! * * We use cx->runtime->gcLock, not ...->rtLock, to avoid nesting the former * inside the latter in js_GenerateShape below. */ JSScopeProperty * PropertyTree::getChild(JSContext *cx, JSScopeProperty *parent, uint32 shape, const JSScopeProperty &child) { PropertyRootEntry *rent; JSScopeProperty *sprop; if (!parent) { PropertyRootKey rkey(&child, shape); JS_LOCK_GC(cx->runtime); rent = (PropertyRootEntry *) JS_DHashTableOperate(&hash, &rkey, JS_DHASH_ADD); if (!rent) { JS_UNLOCK_GC(cx->runtime); JS_ReportOutOfMemory(cx); return NULL; } sprop = rent->firstProp; if (sprop) goto out; } else { JS_ASSERT(!JSBOXEDWORD_IS_NULL(parent->id)); /* * Because chunks are appended at the end and never deleted except by * the GC, we can search without taking the runtime's GC lock. We may * miss a matching sprop added by another thread, and make a duplicate * one, but that is an unlikely, therefore small, cost. The property * tree has extremely low fan-out below its root in popular embeddings * with real-world workloads. * * Patterns such as defining closures that capture a constructor's * environment as getters or setters on the new object that is passed * in as |this| can significantly increase fan-out below the property * tree root -- see bug 335700 for details. */ rent = NULL; sprop = parent->kids; if (sprop) { if (!KIDS_IS_CHUNKY(sprop)) { if (sprop->matches(&child)) return sprop; } else { PropTreeKidsChunk *chunk = KIDS_TO_CHUNK(sprop); if (JSDHashTable *table = chunk->table) { JS_LOCK_GC(cx->runtime); JSPropertyTreeEntry *entry = (JSPropertyTreeEntry *) JS_DHashTableOperate(table, &child, JS_DHASH_LOOKUP); sprop = entry->child; if (sprop) goto out; goto locked_not_found; } uintN n = 0; do { for (uintN i = 0; i < MAX_KIDS_PER_CHUNK; i++) { sprop = chunk->kids[i]; if (!sprop) { n += i; if (n >= CHUNK_HASH_THRESHOLD) { chunk = KIDS_TO_CHUNK(parent->kids); if (!chunk->table) { JSDHashTable *table = HashChunks(chunk, n); if (!table) { JS_ReportOutOfMemory(cx); return NULL; } JS_LOCK_GC(cx->runtime); if (chunk->table) JS_DHashTableDestroy(table); else chunk->table = table; goto locked_not_found; } } goto not_found; } if (sprop->matches(&child)) return sprop; } n += MAX_KIDS_PER_CHUNK; } while ((chunk = chunk->next) != NULL); } } not_found: JS_LOCK_GC(cx->runtime); } locked_not_found: sprop = newScopeProperty(cx, true); if (!sprop) return NULL; new (sprop) JSScopeProperty(child.id, child.rawGetter, child.rawSetter, child.slot, child.attrs, child.flags, child.shortid); sprop->parent = sprop->kids = NULL; sprop->shape = js_GenerateShape(cx, true); if (!parent) { rent->firstProp = sprop; rent->emptyShape = shape; rent->newEmptyShape = 0; } else { if (!PropertyTree::insertChild(cx, parent, sprop)) return NULL; } out: JS_UNLOCK_GC(cx->runtime); return sprop; } #ifdef DEBUG static void MeterKidCount(JSBasicStats *bs, uintN nkids) { JS_BASIC_STATS_ACCUM(bs, nkids); bs->hist[JS_MIN(nkids, 10)]++; } static void MeterPropertyTree(JSBasicStats *bs, JSScopeProperty *node) { uintN i, nkids; JSScopeProperty *kids, *kid; PropTreeKidsChunk *chunk; nkids = 0; kids = node->kids; if (kids) { if (KIDS_IS_CHUNKY(kids)) { for (chunk = KIDS_TO_CHUNK(kids); chunk; chunk = chunk->next) { for (i = 0; i < MAX_KIDS_PER_CHUNK; i++) { kid = chunk->kids[i]; if (!kid) break; MeterPropertyTree(bs, kid); nkids++; } } } else { MeterPropertyTree(bs, kids); nkids = 1; } } MeterKidCount(bs, nkids); } static JSDHashOperator js_MeterPropertyTree(JSDHashTable *table, JSDHashEntryHdr *hdr, uint32 number, void *arg) { PropertyRootEntry *rent = (PropertyRootEntry *)hdr; JSBasicStats *bs = (JSBasicStats *)arg; MeterPropertyTree(bs, rent->firstProp); return JS_DHASH_NEXT; } void JSScopeProperty::dump(JSContext *cx, FILE *fp) { JS_ASSERT(!JSBOXEDWORD_IS_NULL(id)); if (JSID_IS_INT(id)) { fprintf(fp, "[%ld]", (long) JSID_TO_INT(id)); } else { JSString *str; if (JSID_IS_ATOM(id)) { str = JSID_TO_STRING(id); } else { JS_ASSERT(JSID_IS_OBJECT(id)); str = js_ValueToString(cx, IdToValue(id)); fputs("object ", fp); } if (!str) fputs("", fp); else js_FileEscapedString(fp, str, '"'); } fprintf(fp, " g/s %p/%p slot %u attrs %x ", JS_FUNC_TO_DATA_PTR(void *, rawGetter), JS_FUNC_TO_DATA_PTR(void *, rawSetter), slot, attrs); if (attrs) { int first = 1; fputs("(", fp); #define DUMP_ATTR(name, display) if (attrs & JSPROP_##name) fputs(" " #display + first, fp), first = 0 DUMP_ATTR(ENUMERATE, enumerate); DUMP_ATTR(READONLY, readonly); DUMP_ATTR(PERMANENT, permanent); DUMP_ATTR(GETTER, getter); DUMP_ATTR(SETTER, setter); DUMP_ATTR(SHARED, shared); #undef DUMP_ATTR fputs(") ", fp); } fprintf(fp, "flags %x ", flags); if (flags) { int first = 1; fputs("(", fp); #define DUMP_FLAG(name, display) if (flags & name) fputs(" " #display + first, fp), first = 0 DUMP_FLAG(ALIAS, alias); DUMP_FLAG(HAS_SHORTID, has_shortid); DUMP_FLAG(METHOD, method); DUMP_FLAG(MARK, mark); DUMP_FLAG(SHAPE_REGEN, shape_regen); DUMP_FLAG(IN_DICTIONARY, in_dictionary); #undef DUMP_FLAG fputs(") ", fp); } fprintf(fp, "shortid %d\n", shortid); } void JSScopeProperty::dumpSubtree(JSContext *cx, int level, FILE *fp) { fprintf(fp, "%*sid ", level, ""); dump(cx, fp); if (kids) { ++level; if (KIDS_IS_CHUNKY(kids)) { PropTreeKidsChunk *chunk = KIDS_TO_CHUNK(kids); do { for (uintN i = 0; i < MAX_KIDS_PER_CHUNK; i++) { JSScopeProperty *kid = chunk->kids[i]; if (!kid) break; JS_ASSERT(kid->parent == this); kid->dumpSubtree(cx, level, fp); } } while ((chunk = chunk->next) != NULL); } else { JSScopeProperty *kid = kids; JS_ASSERT(kid->parent == this); kid->dumpSubtree(cx, level, fp); } } } #endif /* DEBUG */ static void OrphanNodeKids(JSContext *cx, JSScopeProperty *sprop) { JSScopeProperty *kids = sprop->kids; JS_ASSERT(kids); sprop->kids = NULL; /* * The grandparent must have either no kids or (still, after the * removeChild call above) chunky kids. */ JS_ASSERT(!sprop->parent || !sprop->parent->kids || KIDS_IS_CHUNKY(sprop->parent->kids)); if (KIDS_IS_CHUNKY(kids)) { PropTreeKidsChunk *chunk = KIDS_TO_CHUNK(kids); do { for (uintN i = 0; i < MAX_KIDS_PER_CHUNK; i++) { JSScopeProperty *kid = chunk->kids[i]; if (!kid) break; if (!JSBOXEDWORD_IS_NULL(kid->id)) { JS_ASSERT(kid->parent == sprop); kid->parent = NULL; } } } while ((chunk = DestroyPropTreeKidsChunk(cx, chunk)) != NULL); } else { JSScopeProperty *kid = kids; if (!JSBOXEDWORD_IS_NULL(kid->id)) { JS_ASSERT(kid->parent == sprop); kid->parent = NULL; } } } JSDHashOperator js::RemoveNodeIfDead(JSDHashTable *table, JSDHashEntryHdr *hdr, uint32 number, void *arg) { PropertyRootEntry *rent = (PropertyRootEntry *)hdr; JSScopeProperty *sprop = rent->firstProp; JS_ASSERT(!sprop->parent); if (!sprop->marked()) { if (sprop->kids) OrphanNodeKids((JSContext *)arg, sprop); return JS_DHASH_REMOVE; } return JS_DHASH_NEXT; } void js::SweepScopeProperties(JSContext *cx) { #ifdef DEBUG JSBasicStats bs; uint32 livePropCapacity = 0, totalLiveCount = 0; static FILE *logfp; if (!logfp) { if (const char *filename = getenv("JS_PROPTREE_STATFILE")) logfp = fopen(filename, "w"); } if (logfp) { JS_BASIC_STATS_INIT(&bs); MeterKidCount(&bs, JS_PROPERTY_TREE(cx).hash.entryCount); JS_DHashTableEnumerate(&JS_PROPERTY_TREE(cx).hash, js_MeterPropertyTree, &bs); double props, nodes, mean, sigma; props = cx->runtime->liveScopePropsPreSweep; nodes = cx->runtime->livePropTreeNodes; JS_ASSERT(nodes == bs.sum); mean = JS_MeanAndStdDevBS(&bs, &sigma); fprintf(logfp, "props %g nodes %g beta %g meankids %g sigma %g max %u\n", props, nodes, nodes / props, mean, sigma, bs.max); JS_DumpHistogram(&bs, logfp); } #endif /* * First, remove unmarked nodes from JS_PROPERTY_TREE(cx).hash. This table * requires special handling up front, rather than removal during regular * heap sweeping, because we cannot find an entry in it from the firstProp * node pointer alone -- we would need the emptyShape too. * * Rather than encode emptyShape in firstProp somehow (a tagged overlay on * parent, perhaps, but that would slow down JSScope::search and other hot * paths), we simply orphan kids of garbage nodes in the property tree's * root-ply before sweeping the node heap. */ JS_DHashTableEnumerate(&JS_PROPERTY_TREE(cx).hash, RemoveNodeIfDead, cx); /* * Second, if any empty scopes have been reshaped, rehash the root ply of * this tree using the new empty shape numbers as key-halves. If we run out * of memory trying to allocate the new hash, disable the property cache by * setting SHAPE_OVERFLOW_BIT in rt->shapeGen. The next GC will therefore * renumber shapes as well as (we hope, eventually) free sufficient memory * for a successful re-run through this code. */ if (JS_PROPERTY_TREE(cx).emptyShapeChanges) { JSDHashTable &oldHash = JS_PROPERTY_TREE(cx).hash; uint32 tableSize = JS_DHASH_TABLE_SIZE(&oldHash); JSDHashTable newHash; if (!JS_DHashTableInit(&newHash, &PropertyRootHashOps, NULL, sizeof(PropertyRootEntry), tableSize)) { cx->runtime->shapeGen |= SHAPE_OVERFLOW_BIT; } else { PropertyRootEntry *rent = (PropertyRootEntry *) oldHash.entryStore; PropertyRootEntry *rend = rent + tableSize; while (rent < rend) { if (rent->firstProp) { uint32 emptyShape = rent->newEmptyShape; if (emptyShape == 0) emptyShape = rent->emptyShape; PropertyRootKey rkey(rent->firstProp, emptyShape); PropertyRootEntry *newRent = (PropertyRootEntry *) JS_DHashTableOperate(&newHash, &rkey, JS_DHASH_ADD); newRent->firstProp = rent->firstProp; newRent->emptyShape = emptyShape; newRent->newEmptyShape = 0; } rent++; } JS_ASSERT(newHash.generation == 0); JS_DHashTableFinish(&oldHash); JS_PROPERTY_TREE(cx).hash = newHash; JS_PROPERTY_TREE(cx).emptyShapeChanges = 0; } } /* * Third, sweep the heap clean of all unmarked nodes. Here we will find * nodes already GC'ed from the root ply, but we will avoid re-orphaning * their kids, because the kids member will already be null. */ JSArena **ap = &JS_PROPERTY_TREE(cx).arenaPool.first.next; while (JSArena *a = *ap) { JSScopeProperty *limit = (JSScopeProperty *) a->avail; uintN liveCount = 0; for (JSScopeProperty *sprop = (JSScopeProperty *) a->base; sprop < limit; sprop++) { /* If the id is null, sprop is already on the freelist. */ if (JSBOXEDWORD_IS_NULL(sprop->id)) continue; /* * If the mark bit is set, sprop is alive, so clear the mark bit * and continue the while loop. * * Regenerate sprop->shape if it hasn't already been refreshed * during the mark phase, when live scopes' lastProp members are * followed to update both scope->shape and lastProp->shape. */ if (sprop->marked()) { sprop->clearMark(); if (cx->runtime->gcRegenShapes) { if (sprop->hasRegenFlag()) sprop->clearRegenFlag(); else sprop->shape = js_RegenerateShapeForGC(cx); } liveCount++; continue; } if (!sprop->inDictionary()) { /* * Here, sprop is garbage to collect, but its parent might not * be, so we may have to remove it from its parent's kids chunk * list or kid singleton pointer set. * * Without a separate mark-clearing pass, we can't tell whether * sprop->parent is live at this point, so we must remove sprop * if its parent member is non-null. A saving grace: if sprop's * parent is dead and swept by this point, sprop->parent will * be null -- in the next paragraph, we null all of a property * tree node's kids' parent links when sweeping that node. */ if (sprop->parent) JS_PROPERTY_TREE(cx).removeChild(cx, sprop); if (sprop->kids) OrphanNodeKids(cx, sprop); } /* * Note that JSScopeProperty::insertFree nulls sprop->id so we know * that sprop is on the freelist. */ sprop->insertFree(JS_PROPERTY_TREE(cx).freeList); JS_RUNTIME_UNMETER(cx->runtime, livePropTreeNodes); } /* If a contains no live properties, return it to the malloc heap. */ if (liveCount == 0) { for (JSScopeProperty *sprop = (JSScopeProperty *) a->base; sprop < limit; sprop++) sprop->removeFree(); JS_ARENA_DESTROY(&JS_PROPERTY_TREE(cx).arenaPool, a, ap); } else { #ifdef DEBUG livePropCapacity += limit - (JSScopeProperty *) a->base; totalLiveCount += liveCount; #endif ap = &a->next; } } #ifdef DEBUG if (logfp) { fprintf(logfp, "\nProperty tree stats for gcNumber %lu\n", (unsigned long) cx->runtime->gcNumber); fprintf(logfp, "arenautil %g%%\n", (totalLiveCount && livePropCapacity) ? (totalLiveCount * 100.0) / livePropCapacity : 0.0); #define RATE(f1, f2) (((double)js_scope_stats.f1 / js_scope_stats.f2) * 100.0) fprintf(logfp, "Scope search stats:\n" " searches: %6u\n" " hits: %6u %5.2f%% of searches\n" " misses: %6u %5.2f%%\n" " hashes: %6u %5.2f%%\n" " steps: %6u %5.2f%% %5.2f%% of hashes\n" " stepHits: %6u %5.2f%% %5.2f%%\n" " stepMisses: %6u %5.2f%% %5.2f%%\n" " tableAllocFails %6u\n" " toDictFails %6u\n" " wrapWatchFails %6u\n" " adds: %6u\n" " addFails: %6u\n" " puts: %6u\n" " redundantPuts: %6u\n" " putFails: %6u\n" " changes: %6u\n" " changeFails: %6u\n" " compresses: %6u\n" " grows: %6u\n" " removes: %6u\n" " removeFrees: %6u\n" " uselessRemoves: %6u\n" " shrinks: %6u\n", js_scope_stats.searches, js_scope_stats.hits, RATE(hits, searches), js_scope_stats.misses, RATE(misses, searches), js_scope_stats.hashes, RATE(hashes, searches), js_scope_stats.steps, RATE(steps, searches), RATE(steps, hashes), js_scope_stats.stepHits, RATE(stepHits, searches), RATE(stepHits, hashes), js_scope_stats.stepMisses, RATE(stepMisses, searches), RATE(stepMisses, hashes), js_scope_stats.tableAllocFails, js_scope_stats.toDictFails, js_scope_stats.wrapWatchFails, js_scope_stats.adds, js_scope_stats.addFails, js_scope_stats.puts, js_scope_stats.redundantPuts, js_scope_stats.putFails, js_scope_stats.changes, js_scope_stats.changeFails, js_scope_stats.compresses, js_scope_stats.grows, js_scope_stats.removes, js_scope_stats.removeFrees, js_scope_stats.uselessRemoves, js_scope_stats.shrinks); #undef RATE fflush(logfp); } if (const char *filename = getenv("JS_PROPTREE_DUMPFILE")) { char pathname[1024]; JS_snprintf(pathname, sizeof pathname, "%s.%lu", filename, (unsigned long)cx->runtime->gcNumber); FILE *dumpfp = fopen(pathname, "w"); if (dumpfp) { PropertyRootEntry *rent = (PropertyRootEntry *) JS_PROPERTY_TREE(cx).hash.entryStore; PropertyRootEntry *rend = rent + JS_DHASH_TABLE_SIZE(&JS_PROPERTY_TREE(cx).hash); while (rent < rend) { if (rent->firstProp) { fprintf(dumpfp, "emptyShape %u ", rent->emptyShape); rent->firstProp->dumpSubtree(cx, 0, dumpfp); } rent++; } fclose(dumpfp); } } #endif /* DEBUG */ }