godot/thirdparty/icu4c/common/unifiedcache.h

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// © 2016 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html
/*
******************************************************************************
* Copyright (C) 2015, International Business Machines Corporation and
* others. All Rights Reserved.
******************************************************************************
*
* File UNIFIEDCACHE.H - The ICU Unified cache.
******************************************************************************
*/
#ifndef __UNIFIED_CACHE_H__
#define __UNIFIED_CACHE_H__
#include "utypeinfo.h" // for 'typeid' to work
#include "unicode/uobject.h"
#include "unicode/locid.h"
#include "sharedobject.h"
#include "unicode/unistr.h"
#include "cstring.h"
#include "ustr_imp.h"
struct UHashtable;
struct UHashElement;
U_NAMESPACE_BEGIN
class UnifiedCache;
/**
* A base class for all cache keys.
*/
class U_COMMON_API CacheKeyBase : public UObject {
public:
CacheKeyBase() : fCreationStatus(U_ZERO_ERROR), fIsPrimary(false) {}
/**
* Copy constructor. Needed to support cloning.
*/
CacheKeyBase(const CacheKeyBase &other)
: UObject(other), fCreationStatus(other.fCreationStatus), fIsPrimary(false) { }
virtual ~CacheKeyBase();
/**
* Returns the hash code for this object.
*/
virtual int32_t hashCode() const = 0;
/**
* Clones this object polymorphically. Caller owns returned value.
*/
virtual CacheKeyBase *clone() const = 0;
/**
* Create a new object for this key. Called by cache on cache miss.
* createObject must add a reference to the object it returns. Note
* that getting an object from the cache and returning it without calling
* removeRef on it satisfies this requirement. It can also return nullptr
* and set status to an error.
*
* @param creationContext the context in which the object is being
* created. May be nullptr.
* @param status Implementations can return a failure here.
* In addition, implementations may return a
* non nullptr object and set a warning status.
*/
virtual const SharedObject *createObject(
const void *creationContext, UErrorCode &status) const = 0;
/**
* Writes a description of this key to buffer and returns buffer. Written
* description is nullptr terminated.
*/
virtual char *writeDescription(char *buffer, int32_t bufSize) const = 0;
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friend inline bool operator==(const CacheKeyBase& lhs,
const CacheKeyBase& rhs) {
return lhs.equals(rhs);
}
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friend inline bool operator!=(const CacheKeyBase& lhs,
const CacheKeyBase& rhs) {
return !lhs.equals(rhs);
}
protected:
virtual bool equals(const CacheKeyBase& other) const = 0;
private:
mutable UErrorCode fCreationStatus;
mutable UBool fIsPrimary;
friend class UnifiedCache;
};
/**
* Templated version of CacheKeyBase.
* A key of type LocaleCacheKey<T> maps to a value of type T.
*/
template<typename T>
class CacheKey : public CacheKeyBase {
public:
virtual ~CacheKey() { }
/**
* The template parameter, T, determines the hash code returned.
*/
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virtual int32_t hashCode() const override {
const char *s = typeid(T).name();
return ustr_hashCharsN(s, static_cast<int32_t>(uprv_strlen(s)));
}
/**
* Use the value type, T, as the description.
*/
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virtual char *writeDescription(char *buffer, int32_t bufLen) const override {
const char *s = typeid(T).name();
uprv_strncpy(buffer, s, bufLen);
buffer[bufLen - 1] = 0;
return buffer;
}
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protected:
/**
* Two objects are equal if they are of the same type.
*/
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virtual bool equals(const CacheKeyBase &other) const override {
return this == &other || typeid(*this) == typeid(other);
}
};
/**
* Cache key based on locale.
* A key of type LocaleCacheKey<T> maps to a value of type T.
*/
template<typename T>
class LocaleCacheKey : public CacheKey<T> {
protected:
Locale fLoc;
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virtual bool equals(const CacheKeyBase &other) const override {
if (!CacheKey<T>::equals(other)) {
return false;
}
// We know this and other are of same class because equals() on
// CacheKey returned true.
return operator==(static_cast<const LocaleCacheKey<T> &>(other));
}
public:
LocaleCacheKey(const Locale &loc) : fLoc(loc) {}
LocaleCacheKey(const LocaleCacheKey<T> &other)
: CacheKey<T>(other), fLoc(other.fLoc) { }
virtual ~LocaleCacheKey() { }
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virtual int32_t hashCode() const override {
return (int32_t)(37u * (uint32_t)CacheKey<T>::hashCode() + (uint32_t)fLoc.hashCode());
}
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inline bool operator == (const LocaleCacheKey<T> &other) const {
return fLoc == other.fLoc;
}
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virtual CacheKeyBase *clone() const override {
return new LocaleCacheKey<T>(*this);
}
virtual const T *createObject(
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const void *creationContext, UErrorCode &status) const override;
/**
* Use the locale id as the description.
*/
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virtual char *writeDescription(char *buffer, int32_t bufLen) const override {
const char *s = fLoc.getName();
uprv_strncpy(buffer, s, bufLen);
buffer[bufLen - 1] = 0;
return buffer;
}
};
/**
* The unified cache. A singleton type.
* Design doc here:
* https://docs.google.com/document/d/1RwGQJs4N4tawNbf809iYDRCvXoMKqDJihxzYt1ysmd8/edit?usp=sharing
*/
class U_COMMON_API UnifiedCache : public UnifiedCacheBase {
public:
/**
* @internal
* Do not call directly. Instead use UnifiedCache::getInstance() as
* there should be only one UnifiedCache in an application.
*/
UnifiedCache(UErrorCode &status);
/**
* Return a pointer to the global cache instance.
*/
static UnifiedCache *getInstance(UErrorCode &status);
/**
* Fetches a value from the cache by key. Equivalent to
* get(key, nullptr, ptr, status);
*/
template<typename T>
void get(
const CacheKey<T>& key,
const T *&ptr,
UErrorCode &status) const {
get(key, nullptr, ptr, status);
}
/**
* Fetches value from the cache by key.
*
* @param key the cache key.
* @param creationContext passed verbatim to createObject method of key
* @param ptr On entry, ptr must be nullptr or be included if
* the reference count of the object it points
* to. On exit, ptr points to the fetched object
* from the cache or is left unchanged on
* failure. Caller must call removeRef on ptr
* if set to a non nullptr value.
* @param status Any error returned here. May be set to a
* warning value even if ptr is set.
*/
template<typename T>
void get(
const CacheKey<T>& key,
const void *creationContext,
const T *&ptr,
UErrorCode &status) const {
if (U_FAILURE(status)) {
return;
}
UErrorCode creationStatus = U_ZERO_ERROR;
const SharedObject *value = nullptr;
_get(key, value, creationContext, creationStatus);
const T *tvalue = (const T *) value;
if (U_SUCCESS(creationStatus)) {
SharedObject::copyPtr(tvalue, ptr);
}
SharedObject::clearPtr(tvalue);
// Take care not to overwrite a warning status passed in with
// another warning or U_ZERO_ERROR.
if (status == U_ZERO_ERROR || U_FAILURE(creationStatus)) {
status = creationStatus;
}
}
#ifdef UNIFIED_CACHE_DEBUG
/**
* Dumps the contents of this cache to standard error. Used for testing of
* cache only.
*/
void dumpContents() const;
#endif
/**
* Convenience method to get a value of type T from cache for a
* particular locale with creationContext == nullptr.
* @param loc the locale
* @param ptr On entry, must be nullptr or included in the ref count
* of the object to which it points.
* On exit, fetched value stored here or is left
* unchanged on failure. Caller must call removeRef on
* ptr if set to a non nullptr value.
* @param status Any error returned here. May be set to a
* warning value even if ptr is set.
*/
template<typename T>
static void getByLocale(
const Locale &loc, const T *&ptr, UErrorCode &status) {
const UnifiedCache *cache = getInstance(status);
if (U_FAILURE(status)) {
return;
}
cache->get(LocaleCacheKey<T>(loc), ptr, status);
}
#ifdef UNIFIED_CACHE_DEBUG
/**
* Dumps the cache contents to stderr. For testing only.
*/
static void dump();
#endif
/**
* Returns the number of keys in this cache. For testing only.
*/
int32_t keyCount() const;
/**
* Removes any values from cache that are not referenced outside
* the cache.
*/
void flush() const;
/**
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* Configures at what point eviction of unused entries will begin.
* Eviction is triggered whenever the number of evictable keys exceeds
* BOTH count AND (number of in-use items) * (percentageOfInUseItems / 100).
* Once the number of unused entries drops below one of these,
* eviction ceases. Because eviction happens incrementally,
* the actual unused entry count may exceed both these numbers
* from time to time.
*
* A cache entry is defined as unused if it is not essential to guarantee
* that for a given key X, the cache returns the same reference to the
* same value as long as the client already holds a reference to that
* value.
*
* If this method is never called, the default settings are 1000 and 100%.
*
* Although this method is thread-safe, it is designed to be called at
* application startup. If it is called in the middle of execution, it
* will have no immediate effect on the cache. However over time, the
* cache will perform eviction slices in an attempt to honor the new
* settings.
*
* If a client already holds references to many different unique values
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* in the cache such that the number of those unique values far exceeds
* "count" then the cache may not be able to maintain this maximum.
* However, if this happens, the cache still guarantees that the number of
* unused entries will remain only a small percentage of the total cache
* size.
*
* If the parameters passed are negative, setEvctionPolicy sets status to
* U_ILLEGAL_ARGUMENT_ERROR.
*/
void setEvictionPolicy(
int32_t count, int32_t percentageOfInUseItems, UErrorCode &status);
/**
* Returns how many entries have been auto evicted during the lifetime
* of this cache. This only includes auto evicted entries, not
* entries evicted because of a call to flush().
*/
int64_t autoEvictedCount() const;
/**
* Returns the unused entry count in this cache. For testing only,
* Regular clients will not need this.
*/
int32_t unusedCount() const;
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virtual void handleUnreferencedObject() const override;
virtual ~UnifiedCache();
private:
UHashtable *fHashtable;
mutable int32_t fEvictPos;
mutable int32_t fNumValuesTotal;
mutable int32_t fNumValuesInUse;
int32_t fMaxUnused;
int32_t fMaxPercentageOfInUse;
mutable int64_t fAutoEvictedCount;
SharedObject *fNoValue;
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UnifiedCache(const UnifiedCache &other) = delete;
UnifiedCache &operator=(const UnifiedCache &other) = delete;
/**
* Flushes the contents of the cache. If cache values hold references to other
* cache values then _flush should be called in a loop until it returns false.
*
* On entry, gCacheMutex must be held.
* On exit, those values with are evictable are flushed.
*
* @param all if false flush evictable items only, which are those with no external
* references, plus those that can be safely recreated.<br>
* if true, flush all elements. Any values (sharedObjects) with remaining
* hard (external) references are not deleted, but are detached from
* the cache, so that a subsequent removeRefs can delete them.
* _flush is not thread safe when all is true.
* @return true if any value in cache was flushed or false otherwise.
*/
UBool _flush(UBool all) const;
/**
* Gets value out of cache.
* On entry. gCacheMutex must not be held. value must be nullptr. status
* must be U_ZERO_ERROR.
* On exit. value and status set to what is in cache at key or on cache
* miss the key's createObject() is called and value and status are set to
* the result of that. In this latter case, best effort is made to add the
* value and status to the cache. If createObject() fails to create a value,
* fNoValue is stored in cache, and value is set to nullptr. Caller must call
* removeRef on value if non nullptr.
*/
void _get(
const CacheKeyBase &key,
const SharedObject *&value,
const void *creationContext,
UErrorCode &status) const;
/**
* Attempts to fetch value and status for key from cache.
* On entry, gCacheMutex must not be held value must be nullptr and status must
* be U_ZERO_ERROR.
* On exit, either returns false (In this
* case caller should try to create the object) or returns true with value
* pointing to the fetched value and status set to fetched status. When
* false is returned status may be set to failure if an in progress hash
* entry could not be made but value will remain unchanged. When true is
* returned, caller must call removeRef() on value.
*/
UBool _poll(
const CacheKeyBase &key,
const SharedObject *&value,
UErrorCode &status) const;
/**
* Places a new value and creationStatus in the cache for the given key.
* On entry, gCacheMutex must be held. key must not exist in the cache.
* On exit, value and creation status placed under key. Soft reference added
* to value on successful add. On error sets status.
*/
void _putNew(
const CacheKeyBase &key,
const SharedObject *value,
const UErrorCode creationStatus,
UErrorCode &status) const;
/**
* Places value and status at key if there is no value at key or if cache
* entry for key is in progress. Otherwise, it leaves the current value and
* status there.
*
* On entry. gCacheMutex must not be held. Value must be
* included in the reference count of the object to which it points.
*
* On exit, value and status are changed to what was already in the cache if
* something was there and not in progress. Otherwise, value and status are left
* unchanged in which case they are placed in the cache on a best-effort basis.
* Caller must call removeRef() on value.
*/
void _putIfAbsentAndGet(
const CacheKeyBase &key,
const SharedObject *&value,
UErrorCode &status) const;
/**
* Returns the next element in the cache round robin style.
* Returns nullptr if the cache is empty.
* On entry, gCacheMutex must be held.
*/
const UHashElement *_nextElement() const;
/**
* Return the number of cache items that would need to be evicted
* to bring usage into conformance with eviction policy.
*
* An item corresponds to an entry in the hash table, a hash table element.
*
* On entry, gCacheMutex must be held.
*/
int32_t _computeCountOfItemsToEvict() const;
/**
* Run an eviction slice.
* On entry, gCacheMutex must be held.
* _runEvictionSlice runs a slice of the evict pipeline by examining the next
* 10 entries in the cache round robin style evicting them if they are eligible.
*/
void _runEvictionSlice() const;
/**
* Register a primary cache entry. A primary key is the first key to create
* a given SharedObject value. Subsequent keys whose create function
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* produce references to an already existing SharedObject are not primary -
* they can be evicted and subsequently recreated.
*
* On entry, gCacheMutex must be held.
* On exit, items in use count incremented, entry is marked as a primary
* entry, and value registered with cache so that subsequent calls to
* addRef() and removeRef() on it correctly interact with the cache.
*/
void _registerPrimary(const CacheKeyBase *theKey, const SharedObject *value) const;
/**
* Store a value and creation error status in given hash entry.
* On entry, gCacheMutex must be held. Hash entry element must be in progress.
* value must be non nullptr.
* On Exit, soft reference added to value. value and status stored in hash
* entry. Soft reference removed from previous stored value. Waiting
* threads notified.
*/
void _put(
const UHashElement *element,
const SharedObject *value,
const UErrorCode status) const;
/**
* Remove a soft reference, and delete the SharedObject if no references remain.
* To be used from within the UnifiedCache implementation only.
* gCacheMutex must be held by caller.
* @param value the SharedObject to be acted on.
*/
void removeSoftRef(const SharedObject *value) const;
/**
* Increment the hard reference count of the given SharedObject.
* gCacheMutex must be held by the caller.
* Update numValuesEvictable on transitions between zero and one reference.
*
* @param value The SharedObject to be referenced.
* @return the hard reference count after the addition.
*/
int32_t addHardRef(const SharedObject *value) const;
/**
* Decrement the hard reference count of the given SharedObject.
* gCacheMutex must be held by the caller.
* Update numValuesEvictable on transitions between one and zero reference.
*
* @param value The SharedObject to be referenced.
* @return the hard reference count after the removal.
*/
int32_t removeHardRef(const SharedObject *value) const;
#ifdef UNIFIED_CACHE_DEBUG
void _dumpContents() const;
#endif
/**
* Fetch value and error code from a particular hash entry.
* On entry, gCacheMutex must be held. value must be either nullptr or must be
* included in the ref count of the object to which it points.
* On exit, value and status set to what is in the hash entry. Caller must
* eventually call removeRef on value.
* If hash entry is in progress, value will be set to gNoValue and status will
* be set to U_ZERO_ERROR.
*/
void _fetch(const UHashElement *element, const SharedObject *&value,
UErrorCode &status) const;
/**
* Determine if given hash entry is in progress.
* On entry, gCacheMutex must be held.
*/
UBool _inProgress(const UHashElement *element) const;
/**
* Determine if given hash entry is in progress.
* On entry, gCacheMutex must be held.
*/
UBool _inProgress(const SharedObject *theValue, UErrorCode creationStatus) const;
/**
* Determine if given hash entry is eligible for eviction.
* On entry, gCacheMutex must be held.
*/
UBool _isEvictable(const UHashElement *element) const;
};
U_NAMESPACE_END
#endif