522 lines
16 KiB
C++
522 lines
16 KiB
C++
// © 2016 and later: Unicode, Inc. and others.
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// License & terms of use: http://www.unicode.org/copyright.html
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/*
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******************************************************************************
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* Copyright (C) 2015, International Business Machines Corporation and
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* others. All Rights Reserved.
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******************************************************************************
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*
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* File unifiedcache.cpp
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******************************************************************************
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*/
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#include "unifiedcache.h"
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#include <algorithm> // For std::max()
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#include <mutex>
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#include "uassert.h"
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#include "uhash.h"
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#include "ucln_cmn.h"
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static icu::UnifiedCache *gCache = NULL;
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static std::mutex *gCacheMutex = nullptr;
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static std::condition_variable *gInProgressValueAddedCond;
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static icu::UInitOnce gCacheInitOnce {};
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static const int32_t MAX_EVICT_ITERATIONS = 10;
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static const int32_t DEFAULT_MAX_UNUSED = 1000;
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static const int32_t DEFAULT_PERCENTAGE_OF_IN_USE = 100;
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U_CDECL_BEGIN
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static UBool U_CALLCONV unifiedcache_cleanup() {
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gCacheInitOnce.reset();
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delete gCache;
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gCache = nullptr;
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gCacheMutex->~mutex();
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gCacheMutex = nullptr;
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gInProgressValueAddedCond->~condition_variable();
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gInProgressValueAddedCond = nullptr;
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return true;
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}
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U_CDECL_END
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U_NAMESPACE_BEGIN
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int32_t U_EXPORT2
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ucache_hashKeys(const UHashTok key) {
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const CacheKeyBase *ckey = (const CacheKeyBase *) key.pointer;
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return ckey->hashCode();
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}
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UBool U_EXPORT2
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ucache_compareKeys(const UHashTok key1, const UHashTok key2) {
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const CacheKeyBase *p1 = (const CacheKeyBase *) key1.pointer;
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const CacheKeyBase *p2 = (const CacheKeyBase *) key2.pointer;
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return *p1 == *p2;
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}
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void U_EXPORT2
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ucache_deleteKey(void *obj) {
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CacheKeyBase *p = (CacheKeyBase *) obj;
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delete p;
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}
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CacheKeyBase::~CacheKeyBase() {
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}
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static void U_CALLCONV cacheInit(UErrorCode &status) {
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U_ASSERT(gCache == NULL);
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ucln_common_registerCleanup(
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UCLN_COMMON_UNIFIED_CACHE, unifiedcache_cleanup);
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gCacheMutex = STATIC_NEW(std::mutex);
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gInProgressValueAddedCond = STATIC_NEW(std::condition_variable);
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gCache = new UnifiedCache(status);
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if (gCache == NULL) {
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status = U_MEMORY_ALLOCATION_ERROR;
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}
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if (U_FAILURE(status)) {
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delete gCache;
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gCache = NULL;
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return;
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}
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}
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UnifiedCache *UnifiedCache::getInstance(UErrorCode &status) {
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umtx_initOnce(gCacheInitOnce, &cacheInit, status);
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if (U_FAILURE(status)) {
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return NULL;
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}
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U_ASSERT(gCache != NULL);
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return gCache;
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}
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UnifiedCache::UnifiedCache(UErrorCode &status) :
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fHashtable(NULL),
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fEvictPos(UHASH_FIRST),
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fNumValuesTotal(0),
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fNumValuesInUse(0),
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fMaxUnused(DEFAULT_MAX_UNUSED),
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fMaxPercentageOfInUse(DEFAULT_PERCENTAGE_OF_IN_USE),
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fAutoEvictedCount(0),
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fNoValue(nullptr) {
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if (U_FAILURE(status)) {
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return;
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}
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fNoValue = new SharedObject();
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if (fNoValue == nullptr) {
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status = U_MEMORY_ALLOCATION_ERROR;
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return;
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}
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fNoValue->softRefCount = 1; // Add fake references to prevent fNoValue from being deleted
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fNoValue->hardRefCount = 1; // when other references to it are removed.
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fNoValue->cachePtr = this;
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fHashtable = uhash_open(
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&ucache_hashKeys,
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&ucache_compareKeys,
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NULL,
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&status);
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if (U_FAILURE(status)) {
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return;
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}
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uhash_setKeyDeleter(fHashtable, &ucache_deleteKey);
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}
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void UnifiedCache::setEvictionPolicy(
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int32_t count, int32_t percentageOfInUseItems, UErrorCode &status) {
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if (U_FAILURE(status)) {
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return;
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}
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if (count < 0 || percentageOfInUseItems < 0) {
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status = U_ILLEGAL_ARGUMENT_ERROR;
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return;
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}
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std::lock_guard<std::mutex> lock(*gCacheMutex);
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fMaxUnused = count;
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fMaxPercentageOfInUse = percentageOfInUseItems;
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}
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int32_t UnifiedCache::unusedCount() const {
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std::lock_guard<std::mutex> lock(*gCacheMutex);
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return uhash_count(fHashtable) - fNumValuesInUse;
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}
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int64_t UnifiedCache::autoEvictedCount() const {
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std::lock_guard<std::mutex> lock(*gCacheMutex);
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return fAutoEvictedCount;
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}
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int32_t UnifiedCache::keyCount() const {
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std::lock_guard<std::mutex> lock(*gCacheMutex);
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return uhash_count(fHashtable);
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}
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void UnifiedCache::flush() const {
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std::lock_guard<std::mutex> lock(*gCacheMutex);
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// Use a loop in case cache items that are flushed held hard references to
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// other cache items making those additional cache items eligible for
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// flushing.
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while (_flush(false));
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}
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void UnifiedCache::handleUnreferencedObject() const {
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std::lock_guard<std::mutex> lock(*gCacheMutex);
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--fNumValuesInUse;
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_runEvictionSlice();
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}
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#ifdef UNIFIED_CACHE_DEBUG
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#include <stdio.h>
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void UnifiedCache::dump() {
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UErrorCode status = U_ZERO_ERROR;
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const UnifiedCache *cache = getInstance(status);
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if (U_FAILURE(status)) {
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fprintf(stderr, "Unified Cache: Error fetching cache.\n");
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return;
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}
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cache->dumpContents();
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}
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void UnifiedCache::dumpContents() const {
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std::lock_guard<std::mutex> lock(*gCacheMutex);
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_dumpContents();
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}
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// Dumps content of cache.
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// On entry, gCacheMutex must be held.
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// On exit, cache contents dumped to stderr.
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void UnifiedCache::_dumpContents() const {
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int32_t pos = UHASH_FIRST;
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const UHashElement *element = uhash_nextElement(fHashtable, &pos);
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char buffer[256];
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int32_t cnt = 0;
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for (; element != NULL; element = uhash_nextElement(fHashtable, &pos)) {
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const SharedObject *sharedObject =
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(const SharedObject *) element->value.pointer;
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const CacheKeyBase *key =
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(const CacheKeyBase *) element->key.pointer;
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if (sharedObject->hasHardReferences()) {
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++cnt;
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fprintf(
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stderr,
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"Unified Cache: Key '%s', error %d, value %p, total refcount %d, soft refcount %d\n",
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key->writeDescription(buffer, 256),
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key->creationStatus,
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sharedObject == fNoValue ? NULL :sharedObject,
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sharedObject->getRefCount(),
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sharedObject->getSoftRefCount());
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}
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}
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fprintf(stderr, "Unified Cache: %d out of a total of %d still have hard references\n", cnt, uhash_count(fHashtable));
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}
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#endif
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UnifiedCache::~UnifiedCache() {
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// Try our best to clean up first.
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flush();
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{
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// Now all that should be left in the cache are entries that refer to
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// each other and entries with hard references from outside the cache.
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// Nothing we can do about these so proceed to wipe out the cache.
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std::lock_guard<std::mutex> lock(*gCacheMutex);
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_flush(true);
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}
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uhash_close(fHashtable);
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fHashtable = nullptr;
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delete fNoValue;
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fNoValue = nullptr;
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}
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const UHashElement *
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UnifiedCache::_nextElement() const {
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const UHashElement *element = uhash_nextElement(fHashtable, &fEvictPos);
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if (element == NULL) {
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fEvictPos = UHASH_FIRST;
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return uhash_nextElement(fHashtable, &fEvictPos);
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}
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return element;
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}
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UBool UnifiedCache::_flush(UBool all) const {
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UBool result = false;
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int32_t origSize = uhash_count(fHashtable);
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for (int32_t i = 0; i < origSize; ++i) {
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const UHashElement *element = _nextElement();
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if (element == nullptr) {
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break;
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}
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if (all || _isEvictable(element)) {
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const SharedObject *sharedObject =
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(const SharedObject *) element->value.pointer;
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U_ASSERT(sharedObject->cachePtr == this);
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uhash_removeElement(fHashtable, element);
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removeSoftRef(sharedObject); // Deletes the sharedObject when softRefCount goes to zero.
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result = true;
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}
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}
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return result;
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}
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int32_t UnifiedCache::_computeCountOfItemsToEvict() const {
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int32_t totalItems = uhash_count(fHashtable);
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int32_t evictableItems = totalItems - fNumValuesInUse;
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int32_t unusedLimitByPercentage = fNumValuesInUse * fMaxPercentageOfInUse / 100;
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int32_t unusedLimit = std::max(unusedLimitByPercentage, fMaxUnused);
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int32_t countOfItemsToEvict = std::max(0, evictableItems - unusedLimit);
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return countOfItemsToEvict;
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}
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void UnifiedCache::_runEvictionSlice() const {
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int32_t maxItemsToEvict = _computeCountOfItemsToEvict();
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if (maxItemsToEvict <= 0) {
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return;
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}
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for (int32_t i = 0; i < MAX_EVICT_ITERATIONS; ++i) {
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const UHashElement *element = _nextElement();
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if (element == nullptr) {
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break;
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}
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if (_isEvictable(element)) {
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const SharedObject *sharedObject =
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(const SharedObject *) element->value.pointer;
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uhash_removeElement(fHashtable, element);
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removeSoftRef(sharedObject); // Deletes sharedObject when SoftRefCount goes to zero.
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++fAutoEvictedCount;
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if (--maxItemsToEvict == 0) {
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break;
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}
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}
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}
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}
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void UnifiedCache::_putNew(
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const CacheKeyBase &key,
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const SharedObject *value,
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const UErrorCode creationStatus,
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UErrorCode &status) const {
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if (U_FAILURE(status)) {
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return;
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}
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CacheKeyBase *keyToAdopt = key.clone();
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if (keyToAdopt == NULL) {
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status = U_MEMORY_ALLOCATION_ERROR;
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return;
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}
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keyToAdopt->fCreationStatus = creationStatus;
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if (value->softRefCount == 0) {
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_registerPrimary(keyToAdopt, value);
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}
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void *oldValue = uhash_put(fHashtable, keyToAdopt, (void *) value, &status);
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U_ASSERT(oldValue == nullptr);
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(void)oldValue;
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if (U_SUCCESS(status)) {
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value->softRefCount++;
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}
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}
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void UnifiedCache::_putIfAbsentAndGet(
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const CacheKeyBase &key,
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const SharedObject *&value,
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UErrorCode &status) const {
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std::lock_guard<std::mutex> lock(*gCacheMutex);
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const UHashElement *element = uhash_find(fHashtable, &key);
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if (element != NULL && !_inProgress(element)) {
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_fetch(element, value, status);
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return;
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}
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if (element == NULL) {
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UErrorCode putError = U_ZERO_ERROR;
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// best-effort basis only.
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_putNew(key, value, status, putError);
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} else {
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_put(element, value, status);
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}
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// Run an eviction slice. This will run even if we added a primary entry
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// which doesn't increase the unused count, but that is still o.k
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_runEvictionSlice();
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}
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UBool UnifiedCache::_poll(
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const CacheKeyBase &key,
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const SharedObject *&value,
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UErrorCode &status) const {
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U_ASSERT(value == NULL);
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U_ASSERT(status == U_ZERO_ERROR);
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std::unique_lock<std::mutex> lock(*gCacheMutex);
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const UHashElement *element = uhash_find(fHashtable, &key);
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// If the hash table contains an inProgress placeholder entry for this key,
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// this means that another thread is currently constructing the value object.
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// Loop, waiting for that construction to complete.
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while (element != NULL && _inProgress(element)) {
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gInProgressValueAddedCond->wait(lock);
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element = uhash_find(fHashtable, &key);
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}
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// If the hash table contains an entry for the key,
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// fetch out the contents and return them.
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if (element != NULL) {
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_fetch(element, value, status);
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return true;
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}
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// The hash table contained nothing for this key.
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// Insert an inProgress place holder value.
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// Our caller will create the final value and update the hash table.
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_putNew(key, fNoValue, U_ZERO_ERROR, status);
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return false;
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}
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void UnifiedCache::_get(
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const CacheKeyBase &key,
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const SharedObject *&value,
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const void *creationContext,
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UErrorCode &status) const {
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U_ASSERT(value == NULL);
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U_ASSERT(status == U_ZERO_ERROR);
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if (_poll(key, value, status)) {
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if (value == fNoValue) {
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SharedObject::clearPtr(value);
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}
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return;
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}
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if (U_FAILURE(status)) {
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return;
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}
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value = key.createObject(creationContext, status);
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U_ASSERT(value == NULL || value->hasHardReferences());
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U_ASSERT(value != NULL || status != U_ZERO_ERROR);
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if (value == NULL) {
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SharedObject::copyPtr(fNoValue, value);
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}
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_putIfAbsentAndGet(key, value, status);
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if (value == fNoValue) {
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SharedObject::clearPtr(value);
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}
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}
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void UnifiedCache::_registerPrimary(
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const CacheKeyBase *theKey, const SharedObject *value) const {
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theKey->fIsPrimary = true;
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value->cachePtr = this;
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++fNumValuesTotal;
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++fNumValuesInUse;
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}
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void UnifiedCache::_put(
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const UHashElement *element,
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const SharedObject *value,
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const UErrorCode status) const {
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U_ASSERT(_inProgress(element));
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const CacheKeyBase *theKey = (const CacheKeyBase *) element->key.pointer;
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const SharedObject *oldValue = (const SharedObject *) element->value.pointer;
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theKey->fCreationStatus = status;
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if (value->softRefCount == 0) {
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_registerPrimary(theKey, value);
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}
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value->softRefCount++;
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UHashElement *ptr = const_cast<UHashElement *>(element);
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ptr->value.pointer = (void *) value;
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U_ASSERT(oldValue == fNoValue);
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removeSoftRef(oldValue);
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// Tell waiting threads that we replace in-progress status with
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// an error.
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gInProgressValueAddedCond->notify_all();
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}
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void UnifiedCache::_fetch(
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const UHashElement *element,
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const SharedObject *&value,
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UErrorCode &status) const {
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const CacheKeyBase *theKey = (const CacheKeyBase *) element->key.pointer;
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status = theKey->fCreationStatus;
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// Since we have the cache lock, calling regular SharedObject add/removeRef
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// could cause us to deadlock on ourselves since they may need to lock
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// the cache mutex.
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removeHardRef(value);
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value = static_cast<const SharedObject *>(element->value.pointer);
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addHardRef(value);
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}
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UBool UnifiedCache::_inProgress(const UHashElement* element) const {
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UErrorCode status = U_ZERO_ERROR;
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const SharedObject * value = NULL;
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_fetch(element, value, status);
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UBool result = _inProgress(value, status);
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removeHardRef(value);
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return result;
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}
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UBool UnifiedCache::_inProgress(
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const SharedObject* theValue, UErrorCode creationStatus) const {
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return (theValue == fNoValue && creationStatus == U_ZERO_ERROR);
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}
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UBool UnifiedCache::_isEvictable(const UHashElement *element) const
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{
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const CacheKeyBase *theKey = (const CacheKeyBase *) element->key.pointer;
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const SharedObject *theValue =
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(const SharedObject *) element->value.pointer;
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// Entries that are under construction are never evictable
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if (_inProgress(theValue, theKey->fCreationStatus)) {
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return false;
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}
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// We can evict entries that are either not a primary or have just
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// one reference (The one reference being from the cache itself).
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return (!theKey->fIsPrimary || (theValue->softRefCount == 1 && theValue->noHardReferences()));
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}
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void UnifiedCache::removeSoftRef(const SharedObject *value) const {
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U_ASSERT(value->cachePtr == this);
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U_ASSERT(value->softRefCount > 0);
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if (--value->softRefCount == 0) {
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--fNumValuesTotal;
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if (value->noHardReferences()) {
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delete value;
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} else {
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// This path only happens from flush(all). Which only happens from the
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// UnifiedCache destructor. Nulling out value.cacheptr changes the behavior
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// of value.removeRef(), causing the deletion to be done there.
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value->cachePtr = nullptr;
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}
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}
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}
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int32_t UnifiedCache::removeHardRef(const SharedObject *value) const {
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int refCount = 0;
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if (value) {
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refCount = umtx_atomic_dec(&value->hardRefCount);
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U_ASSERT(refCount >= 0);
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if (refCount == 0) {
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--fNumValuesInUse;
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}
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}
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return refCount;
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}
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int32_t UnifiedCache::addHardRef(const SharedObject *value) const {
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int refCount = 0;
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if (value) {
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refCount = umtx_atomic_inc(&value->hardRefCount);
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U_ASSERT(refCount >= 1);
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if (refCount == 1) {
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fNumValuesInUse++;
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}
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}
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return refCount;
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}
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U_NAMESPACE_END
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