/** * Method that can be used to determine how many serializers this * provider is caching currently * (if it does caching: default implementation does) * Exact count depends on what kind of serializers get cached; * default implementation caches all serializers, including ones that * are eagerly constructed (for optimal access speed) *<p> * The main use case for this method is to allow conditional flushing of * serializer cache, if certain number of entries is reached. */ public int cachedSerializersCount() { return _serializerCache.size(); }
/** * Method that can be used to determine how many serializers this * provider is caching currently * (if it does caching: default implementation does) * Exact count depends on what kind of serializers get cached; * default implementation caches all serializers, including ones that * are eagerly constructed (for optimal access speed) *<p> * The main use case for this method is to allow conditional flushing of * serializer cache, if certain number of entries is reached. */ public int cachedSerializersCount() { return _serializerCache.size(); }
/** * Method that can be used to determine how many serializers this * provider is caching currently * (if it does caching: default implementation does) * Exact count depends on what kind of serializers get cached; * default implementation caches all serializers, including ones that * are eagerly constructed (for optimal access speed) *<p> * The main use case for this method is to allow conditional flushing of * serializer cache, if certain number of entries is reached. */ public int cachedSerializersCount() { return _serializerCache.size(); }
/** * Method that can be used to determine how many serializers this * provider is caching currently * (if it does caching: default implementation does) * Exact count depends on what kind of serializers get cached; * default implementation caches all serializers, including ones that * are eagerly constructed (for optimal access speed) *<p> * The main use case for this method is to allow conditional flushing of * serializer cache, if certain number of entries is reached. */ public int cachedSerializersCount() { return _serializerCache.size(); }
/** * Method that can be used to determine how many serializers this * provider is caching currently * (if it does caching: default implementation does) * Exact count depends on what kind of serializers get cached; * default implementation caches all serializers, including ones that * are eagerly constructed (for optimal access speed) *<p> * The main use case for this method is to allow conditional flushing of * serializer cache, if certain number of entries is reached. */ public int cachedSerializersCount() { return _serializerCache.size(); }
/** * Method that can be used to determine how many serializers this * provider is caching currently * (if it does caching: default implementation does) * Exact count depends on what kind of serializers get cached; * default implementation caches all serializers, including ones that * are eagerly constructed (for optimal access speed) *<p> * The main use case for this method is to allow conditional flushing of * serializer cache, if certain number of entries is reached. */ public int cachedSerializersCount() { return _serializerCache.size(); }
/** * Method that can be used to determine how many serializers this * provider is caching currently * (if it does caching: default implementation does) * Exact count depends on what kind of serializers get cached; * default implementation caches all serializers, including ones that * are eagerly constructed (for optimal access speed) *<p> * The main use case for this method is to allow conditional flushing of * serializer cache, if certain number of entries is reached. */ public int cachedSerializersCount() { return _serializerCache.size(); }