ignite-commits mailing list archives

Site index · List index
Message view « Date » · « Thread »
Top « Date » · « Thread »
From sboi...@apache.org
Subject [38/74] [abbrv] incubator-ignite git commit: # ignite-63
Date Mon, 26 Jan 2015 02:58:58 GMT
http://git-wip-us.apache.org/repos/asf/incubator-ignite/blob/cafee25f/modules/core/src/main/java/org/apache/ignite/cache/CacheProjection.java
----------------------------------------------------------------------
diff --git a/modules/core/src/main/java/org/apache/ignite/cache/CacheProjection.java b/modules/core/src/main/java/org/apache/ignite/cache/CacheProjection.java
new file mode 100644
index 0000000..cfbfb85
--- /dev/null
+++ b/modules/core/src/main/java/org/apache/ignite/cache/CacheProjection.java
@@ -0,0 +1,1912 @@
+/*
+ * Licensed to the Apache Software Foundation (ASF) under one or more
+ * contributor license agreements.  See the NOTICE file distributed with
+ * this work for additional information regarding copyright ownership.
+ * The ASF licenses this file to You under the Apache License, Version 2.0
+ * (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.apache.org/licenses/LICENSE-2.0
+ *
+ * Unless required by applicable law or agreed to in writing, software
+ * distributed under the License is distributed on an "AS IS" BASIS,
+ * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
+ * See the License for the specific language governing permissions and
+ * limitations under the License.
+ */
+
+package org.apache.ignite.cache;
+
+import org.apache.ignite.*;
+import org.apache.ignite.cache.query.*;
+import org.apache.ignite.cache.store.*;
+import org.apache.ignite.cluster.*;
+import org.apache.ignite.lang.*;
+import org.apache.ignite.transactions.*;
+import org.jetbrains.annotations.*;
+
+import java.sql.*;
+import java.util.*;
+import java.util.Date;
+import java.util.concurrent.*;
+
+/**
+ * This interface provides a rich API for working with distributed caches. It includes the following
+ * main functionality:
+ * <ul>
+ * <li>
+ *  Various {@code 'get(..)'} methods to synchronously or asynchronously get values from cache.
+ *  All {@code 'get(..)'} methods are transactional and will participate in an ongoing transaction
+ *  if there is one.
+ * </li>
+ * <li>
+ *  Various {@code 'put(..)'}, {@code 'putIfAbsent(..)'}, and {@code 'replace(..)'} methods to
+ *  synchronously or asynchronously put single or multiple entries into cache.
+ *  All these methods are transactional and will participate in an ongoing transaction
+ *  if there is one.
+ * </li>
+ * <li>
+ *  Various {@code 'remove(..)'} methods to synchronously or asynchronously remove single or multiple keys
+ *  from cache. All {@code 'remove(..)'} methods are transactional and will participate in an ongoing transaction
+ *  if there is one.
+ * </li>
+ * <li>
+ *  Various {@code 'contains(..)'} method to check if cache contains certain keys or values locally.
+ * </li>
+ * <li>
+ *  Various {@code 'forEach(..)'}, {@code 'forAny(..)'}, and {@code 'reduce(..)'} methods to visit
+ *  every local cache entry within this projection.
+ * </li>
+ * <li>
+ *  Various {@code flagsOn(..)'}, {@code 'flagsOff(..)'}, and {@code 'projection(..)'} methods to
+ *  set specific flags and filters on a cache projection.
+ * </li>
+ * <li>
+ *  Methods like {@code 'keySet(..)'}, {@code 'values(..)'}, and {@code 'entrySet(..)'} to provide
+ *  views on cache keys, values, and entries.
+ * </li>
+ * <li>
+ *  Various {@code 'peek(..)'} methods to peek at values in global or transactional memory, swap
+ *  storage, or persistent storage.
+ * </li>
+ * <li>
+ *  Various {@code 'reload(..)'} methods to reload latest values from persistent storage.
+ * </li>
+ * <li>
+ *  Various {@code 'promote(..)'} methods to load specified keys from swap storage into
+ *  global cache memory.
+ * </li>
+ * <li>
+ *  Various {@code 'lock(..)'}, {@code 'unlock(..)'}, and {@code 'isLocked(..)'} methods to acquire, release,
+ *  and check on distributed locks on a single or multiple keys in cache. All locking methods
+ *  are not transactional and will not enlist keys into ongoing transaction, if any.
+ * </li>
+ * <li>
+ *  Various {@code 'clear(..)'} methods to clear elements from cache, and optionally from
+ *  swap storage. All {@code 'clear(..)'} methods are not transactional and will not enlist cleared
+ *  keys into ongoing transaction, if any.
+ * </li>
+ * <li>
+ *  Various {@code 'evict(..)'} methods to evict elements from cache, and optionally store
+ *  them in underlying swap storage for later access. All {@code 'evict(..)'} methods are not
+ *  transactional and will not enlist evicted keys into ongoing transaction, if any.
+ * </li>
+ * <li>
+ *  Various {@code 'txStart(..)'} methods to perform various cache
+ *  operations within a transaction (see {@link IgniteTx} for more information).
+ * </li>
+ * <li>
+ *  {@link #queries()} method to get an instance of {@link org.apache.ignite.cache.query.CacheQueries} service for working
+ *  with distributed cache queries.
+ * </li>
+ * <li>
+ *  Various {@code 'gridProjection(..)'} methods which provide {@link org.apache.ignite.cluster.ClusterGroup} only
+ *  for nodes on which given keys reside. All {@code 'gridProjection(..)'} methods are not
+ *  transactional and will not enlist keys into ongoing transaction.
+ * </li>
+ * <li>Method {@link Cache#toMap()} to convert this interface into standard Java {@link ConcurrentMap} interface.
+ * </ul>
+ * <h1 class="header">Extended Put And Remove Methods</h1>
+ * All methods that end with {@code 'x'} provide the same functionality as their sibling
+ * methods that don't end with {@code 'x'}, however instead of returning a previous value they
+ * return a {@code boolean} flag indicating whether operation succeeded or not. Returning
+ * a previous value may involve a network trip or a persistent store lookup and should be
+ * avoided whenever not needed.
+ * <h1 class="header">Predicate Filters</h1>
+ * All filters passed into methods on this API are checked <b>atomically</b>. In other words the
+ * value returned by the methods is guaranteed to be consistent with the filters passed in. Note
+ * that filters are optional, and if not passed in, then methods will still work as is without
+ * filter validation.
+ * <h1 class="header">Transactions</h1>
+ * Cache API supports distributed transactions. All {@code 'get(..)'}, {@code 'put(..)'}, {@code 'replace(..)'},
+ * and {@code 'remove(..)'} operations are transactional and will participate in an ongoing transaction,
+ * if any. Other methods like {@code 'peek(..)'} or various {@code 'contains(..)'} methods may
+ * be transaction-aware, i.e. check in-transaction entries first, but will not affect the current
+ * state of transaction. See {@link IgniteTx} documentation for more information
+ * about transactions.
+ * <h1 class="header">Group Locking</h1>
+ * <i>Group Locking</i> is a feature where instead of acquiring individual locks, GridGain will lock
+ * multiple keys with one lock to save on locking overhead. There are 2 types of <i>Group Locking</i>:
+ * <i>affinity-based</i>, and <i>partitioned-based</i>.
+ * <p>
+ * With {@code affinity-based-group-locking} the keys are grouped by <i>affinity-key</i>. This means that
+ * only keys with identical affinity-key (see {@link org.apache.ignite.cache.affinity.CacheAffinityKeyMapped}) can participate in the
+ * transaction, and only one lock on the <i>affinity-key</i> will be acquired for the whole transaction.
+ * {@code Affinity-group-locked} transactions are started via
+ * {@link #txStartAffinity(Object, IgniteTxConcurrency, IgniteTxIsolation, long, int)} method.
+ * <p>
+ * With {@code partition-based-group-locking} the keys are grouped by partition ID. This means that
+ * only keys belonging to identical partition (see {@link org.apache.ignite.cache.affinity.CacheAffinity#partition(Object)}) can participate in the
+ * transaction, and only one lock on the whole partition will be acquired for the whole transaction.
+ * {@code Partition-group-locked} transactions are started via
+ * {@link #txStartPartition(int, IgniteTxConcurrency, IgniteTxIsolation, long, int)} method.
+ * <p>
+ * <i>Group locking</i> should always be used for transactions whenever possible. If your requirements fit either
+ * <i>affinity-based</i> or <i>partition-based</i> scenarios outlined above then <i>group-locking</i>
+ * can significantly improve performance of your application, often by an order of magnitude.
+ * <h1 class="header">Null Keys or Values</h1>
+ * Neither {@code null} keys or values are allowed to be stored in cache. If a {@code null} value
+ * happens to be in cache (e.g. after invalidation or remove), then cache will treat this case
+ * as there is no value at all.
+ * <h1 class="header">Peer Class Loading</h1>
+ * If peer-class-loading is enabled, all classes passed into cache API will be automatically deployed
+ * to any participating grid nodes. However, in case of redeployment, caches will be cleared and
+ * all entries will be removed. This behavior is useful during development, but should not be
+ * used in production.
+ * <h1 class="header">Portable Objects</h1>
+ * If an object is defined as portable GridGain cache will automatically store it in portable (i.e. binary)
+ * format. User can choose to work either with the portable format or with the deserialized form (assuming
+ * that class definitions are present in the classpath). By default, cache works with deserialized form
+ * (example shows the case when {@link Integer} is used as a key for a portable object):
+ * <pre>
+ * CacheProjection<Integer, Value> prj = GridGain.grid().cache(null);
+ *
+ * // Value will be serialized and stored in cache in portable format.
+ * prj.put(1, new Value());
+ *
+ * // Value will be deserialized since it's stored in portable format.
+ * Value val = prj.get(1);
+ * </pre>
+ * You won't be able to work with deserialized form if class definition for the {@code Value} is not on
+ * classpath. Even if you have the class definition, you should always avoid full deserialization if it's not
+ * needed for performance reasons. To work with portable format directly you should create special projection
+ * using {@link #keepPortable()} method:
+ * <pre>
+ * CacheProjection<Integer, GridPortableObject> prj = GridGain.grid().cache(null).keepPortable();
+ *
+ * // Value is not deserialized and returned in portable format.
+ * GridPortableObject po = prj.get(1);
+ * </pre>
+ * See {@link #keepPortable()} method JavaDoc for more details.
+ */
+public interface CacheProjection<K, V> extends Iterable<CacheEntry<K, V>> {
+    /**
+     * Gets name of this cache ({@code null} for default cache).
+     *
+     * @return Cache name.
+     */
+    public String name();
+
+    /**
+     * Gets grid projection for this cache. This projection includes all nodes which have this cache configured.
+     *
+     * @return Projection instance.
+     */
+    public ClusterGroup gridProjection();
+
+    /**
+     * Gets base cache for this projection.
+     *
+     * @param <K1> Cache key type.
+     * @param <V1> Cache value type.
+     * @return Base cache for this projection.
+     */
+    @SuppressWarnings({"ClassReferencesSubclass"})
+    public <K1, V1> Cache<K1, V1> cache();
+
+    /**
+     * Gets cache flags enabled on this projection.
+     *
+     * @return Flags for this projection (empty set if no flags have been set).
+     */
+    public Set<CacheFlag> flags();
+
+    /**
+     * Returns queries facade responsible for creating various SQL, TEXT, or SCAN queries.
+
+     * @return Queries facade responsible for creating various SQL, TEXT, or SCAN queries.
+     */
+    public CacheQueries<K, V> queries();
+
+    /**
+     * Gets cache projection only for given key and value type. Only {@code non-null} key-value
+     * pairs that have matching key and value pairs will be used in this projection.
+     *
+     * @param keyType Key type.
+     * @param valType Value type.
+     * @param <K1> Key type.
+     * @param <V1> Value type.
+     * @return Cache projection for given key and value types.
+     */
+    public <K1, V1> CacheProjection<K1, V1> projection(Class<? super K1> keyType, Class<? super V1> valType);
+
+    /**
+     * Gets cache projection based on given key-value predicate. Whenever makes sense,
+     * this predicate will be used to pre-filter cache operations. If
+     * operation passed pre-filtering, this filter will be passed through
+     * to cache operations as well.
+     * <p>
+     * For example, for {@link #putAll(Map, org.apache.ignite.lang.IgnitePredicate[])} method only
+     * elements that pass the filter will be given to {@code Cache.putAll(m, filter)}
+     * where it will be checked once again prior to put.
+     *
+     * @param p Key-value predicate for this projection. If {@code null}, then the
+     *      same projection is returned.
+     * @return Projection for given key-value predicate.
+     */
+    public CacheProjection<K, V> projection(@Nullable IgniteBiPredicate<K, V> p);
+
+    /**
+     * Gets cache projection based on given entry filter. This filter will be simply passed through
+     * to all cache operations on this projection. Unlike {@link #projection(org.apache.ignite.lang.IgniteBiPredicate)}
+     * method, this filter will <b>not</b> be used for pre-filtering.
+     *
+     * @param filter Filter to be passed through to all cache operations. If {@code null}, then the
+     *      same projection is returned.  If cache operation receives its own filter, then filters
+     *      will be {@code 'anded'}.
+     * @return Projection based on given filter.
+     */
+    public CacheProjection<K, V> projection(@Nullable IgnitePredicate<CacheEntry<K, V>> filter);
+
+    /**
+     * Gets cache projection base on this one, but with the specified flags turned on.
+     * <h1 class="header">Cache Flags</h1>
+     * The resulting projection will inherit all the flags from this projection.
+     *
+     * @param flags Flags to turn on (if empty, then no-op).
+     * @return New projection based on this one, but with the specified flags turned on.
+     */
+    public CacheProjection<K, V> flagsOn(@Nullable CacheFlag... flags);
+
+    /**
+     * Gets cache projection base on this but with the specified flags turned off.
+     * <h1 class="header">Cache Flags</h1>
+     * The resulting projection will inherit all the flags from this projection except for
+     * the ones that were turned off.
+     *
+     * @param flags Flags to turn off (if empty, then all flags will be turned off).
+     * @return New projection based on this one, but with the specified flags turned off.
+     */
+    public CacheProjection<K, V> flagsOff(@Nullable CacheFlag... flags);
+
+    /**
+     * Creates projection that will operate with portable objects.
+     * <p>
+     * Projection returned by this method will force cache not to deserialize portable objects,
+     * so keys and values will be returned from cache API methods without changes. Therefore,
+     * signature of the projection can contain only following types:
+     * <ul>
+     *     <li>{@link org.apache.ignite.portables.PortableObject} for portable classes</li>
+     *     <li>All primitives (byte, int, ...) and there boxed versions (Byte, Integer, ...)</li>
+     *     <li>Arrays of primitives (byte[], int[], ...)</li>
+     *     <li>{@link String} and array of {@link String}s</li>
+     *     <li>{@link UUID} and array of {@link UUID}s</li>
+     *     <li>{@link Date} and array of {@link Date}s</li>
+     *     <li>{@link Timestamp} and array of {@link Timestamp}s</li>
+     *     <li>Enums and array of enums</li>
+     *     <li>
+     *         Maps, collections and array of objects (but objects inside
+     *         them will still be converted if they are portable)
+     *     </li>
+     * </ul>
+     * <p>
+     * For example, if you use {@link Integer} as a key and {@code Value} class as a value
+     * (which will be stored in portable format), you should acquire following projection
+     * to avoid deserialization:
+     * <pre>
+     * CacheProjection<Integer, GridPortableObject> prj = cache.keepPortable();
+     *
+     * // Value is not deserialized and returned in portable format.
+     * GridPortableObject po = prj.get(1);
+     * </pre>
+     * <p>
+     * Note that this method makes sense only if cache is working in portable mode
+     * ({@link CacheConfiguration#isPortableEnabled()} returns {@code true}. If not,
+     * this method is no-op and will return current projection.
+     *
+     * @return Projection for portable objects.
+     */
+    public <K1, V1> CacheProjection<K1, V1> keepPortable();
+
+    /**
+     * Returns {@code true} if this map contains no key-value mappings.
+     *
+     * @return {@code true} if this map contains no key-value mappings.
+     */
+    public boolean isEmpty();
+
+    /**
+     * Converts this API into standard Java {@link ConcurrentMap} interface.
+     *
+     * @return {@link ConcurrentMap} representation of given cache projection.
+     */
+    public ConcurrentMap<K, V> toMap();
+
+    /**
+     * Returns {@code true} if this cache contains a mapping for the specified
+     * key.
+     *
+     * @param key key whose presence in this map is to be tested.
+     * @return {@code true} if this map contains a mapping for the specified key.
+     * @throws NullPointerException if the key is {@code null}.
+     */
+    public boolean containsKey(K key);
+
+    /**
+     * Returns {@code true} if this cache contains given value.
+     *
+     * @param val Value to check.
+     * @return {@code True} if given value is present in cache.
+     * @throws NullPointerException if the value is {@code null}.
+     */
+    public boolean containsValue(V val);
+
+    /**
+     * Executes visitor closure on each cache element.
+     * <h2 class="header">Transactions</h2>
+     * This method is not transactional and will not enlist keys into transaction simply
+     * because they were visited. However, if you perform transactional operations on the
+     * visited entries, those operations will enlist the entry into transaction.
+     *
+     * @param vis Closure which will be invoked for each cache entry.
+     */
+    public void forEach(IgniteInClosure<CacheEntry<K, V>> vis);
+
+    /**
+     * Tests whether the predicate holds for all entries. If cache is empty,
+     * then {@code true} is returned.
+     * <h2 class="header">Transactions</h2>
+     * This method is not transactional and will not enlist keys into transaction simply
+     * because they were visited. However, if you perform transactional operations on the
+     * visited entries, those operations will enlist the entry into transaction.
+     *
+     * @param vis Predicate to test for each cache entry.
+     * @return {@code True} if the given predicate holds for all visited entries, {@code false} otherwise.
+     */
+    public boolean forAll(IgnitePredicate<CacheEntry<K, V>> vis);
+
+    /**
+     * Reloads a single key from persistent storage. This method
+     * delegates to {@link CacheStore#load(IgniteTx, Object)}
+     * method.
+     * <h2 class="header">Transactions</h2>
+     * This method does not participate in transactions, however it does not violate
+     * cache integrity and can be used safely with or without transactions.
+     *
+     * @param key Key to reload.
+     * @return Reloaded value or current value if entry was updated while reloading.
+     * @throws IgniteCheckedException If reloading failed.
+     */
+    @Nullable public V reload(K key) throws IgniteCheckedException;
+
+    /**
+     * Asynchronously reloads a single key from persistent storage. This method
+     * delegates to {@link CacheStore#load(IgniteTx, Object)}
+     * method.
+     * <h2 class="header">Transactions</h2>
+     * This method does not participate in transactions, however it does not violate
+     * cache integrity and can be used safely with or without transactions.
+     *
+     * @param key Key to reload.
+     * @return Future to be completed whenever the entry is reloaded.
+     */
+    public IgniteFuture<V> reloadAsync(K key);
+
+    /**
+     * Reloads all currently cached keys form persistent storage.
+     * <h2 class="header">Transactions</h2>
+     * This method does not participate in transactions, however it does not violate
+     * cache integrity and can be used safely with or without transactions.
+     *
+     * @throws IgniteCheckedException If reloading failed.
+     */
+    public void reloadAll() throws IgniteCheckedException;
+
+    /**
+     * Asynchronously reloads all specified entries from underlying
+     * persistent storage.
+     * <h2 class="header">Transactions</h2>
+     * This method does not participate in transactions, however it does not violate
+     * cache integrity and can be used safely with or without transactions.
+     *
+     * @return Future which will complete whenever {@code reload} completes.
+     */
+    public IgniteFuture<?> reloadAllAsync();
+
+    /**
+     * Reloads specified entries from underlying persistent storage.
+     * <h2 class="header">Transactions</h2>
+     * This method does not participate in transactions, however it does not violate
+     * cache integrity and can be used safely with or without transactions.
+     *
+     * @param keys Keys to reload.
+     * @throws IgniteCheckedException if reloading failed.
+     */
+    public void reloadAll(@Nullable Collection<? extends K> keys) throws IgniteCheckedException;
+
+    /**
+     * Asynchronously reloads all specified entries from underlying
+     * persistent storage.
+     * <h2 class="header">Transactions</h2>
+     * This method does not participate in transactions, however it does not violate
+     * cache integrity and can be used safely with or without transactions.
+     *
+     * @param keys Keys to reload.
+     * @return Future which will complete whenever {@code reload} completes.
+     */
+    public IgniteFuture<?> reloadAllAsync(@Nullable Collection<? extends K> keys);
+
+    /**
+     * Peeks at in-memory cached value using default {@link GridCachePeekMode#SMART}
+     * peek mode.
+     * <p>
+     * This method will not load value from any persistent store or from a remote node.
+     * <h2 class="header">Transactions</h2>
+     * This method does not participate in any transactions, however, it will
+     * peek at transactional value according to the {@link GridCachePeekMode#SMART} mode
+     * semantics. If you need to look at global cached value even from within transaction,
+     * you can use {@link Cache#peek(Object, Collection)} method.
+     *
+     * @param key Entry key.
+     * @return Peeked value.
+     * @throws NullPointerException If key is {@code null}.
+     */
+    @Nullable public V peek(K key);
+
+    /**
+     * Peeks at cached value using optional set of peek modes. This method will sequentially
+     * iterate over given peek modes in the order passed in, and try to peek at value using
+     * each peek mode. Once a {@code non-null} value is found, it will be immediately returned.
+     * <p>
+     * Note that if modes are not provided this method works exactly the same way as
+     * {@link #peek(Object)}, implicitly using {@link GridCachePeekMode#SMART} mode.
+     * <h2 class="header">Transactions</h2>
+     * This method does not participate in any transactions, however, it may
+     * peek at transactional value depending on the peek modes used.
+     *
+     * @param key Entry key.
+     * @param modes Optional set of peek modes.
+     * @return Peeked value.
+     * @throws IgniteCheckedException If peek operation failed.
+     * @throws NullPointerException If key is {@code null}.
+     */
+    @Nullable public V peek(K key, @Nullable Collection<GridCachePeekMode> modes) throws IgniteCheckedException;
+
+    /**
+     * Retrieves value mapped to the specified key from cache. Value will only be returned if
+     * its entry passed the optional filter provided. Filter check is atomic, and therefore the
+     * returned value is guaranteed to be consistent with the filter. The return value of {@code null}
+     * means entry did not pass the provided filter or cache has no mapping for the
+     * key.
+     * <p>
+     * If the value is not present in cache, then it will be looked up from swap storage. If
+     * it's not present in swap, or if swap is disable, and if read-through is allowed, value
+     * will be loaded from {@link CacheStore} persistent storage via
+     * {@link CacheStore#load(IgniteTx, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if {@link CacheFlag#LOCAL} flag is set on projection.
+     *
+     * @param key Key to retrieve the value for.
+     * @return Value for the given key.
+     * @throws IgniteCheckedException If get operation failed.
+     * @throws CacheFlagException If failed projection flags validation.
+     * @throws NullPointerException if the key is {@code null}.
+     */
+    @Nullable public V get(K key) throws IgniteCheckedException;
+
+    /**
+     * Asynchronously retrieves value mapped to the specified key from cache. Value will only be returned if
+     * its entry passed the optional filter provided. Filter check is atomic, and therefore the
+     * returned value is guaranteed to be consistent with the filter. The return value of {@code null}
+     * means entry did not pass the provided filter or cache has no mapping for the
+     * key.
+     * <p>
+     * If the value is not present in cache, then it will be looked up from swap storage. If
+     * it's not present in swap, or if swap is disabled, and if read-through is allowed, value
+     * will be loaded from {@link CacheStore} persistent storage via
+     * {@link CacheStore#load(IgniteTx, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if {@link CacheFlag#LOCAL} flag is set on projection.
+     *
+     * @param key Key for the value to get.
+     * @return Future for the get operation.
+     * @throws NullPointerException if the key is {@code null}.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    public IgniteFuture<V> getAsync(K key);
+
+    /**
+     * Retrieves values mapped to the specified keys from cache. Value will only be returned if
+     * its entry passed the optional filter provided. Filter check is atomic, and therefore the
+     * returned value is guaranteed to be consistent with the filter. If requested key-value pair
+     * is not present in the returned map, then it means that its entry did not pass the provided
+     * filter or cache has no mapping for the key.
+     * <p>
+     * If some value is not present in cache, then it will be looked up from swap storage. If
+     * it's not present in swap, or if swap is disabled, and if read-through is allowed, value
+     * will be loaded from {@link CacheStore} persistent storage via
+     * {@link CacheStore#loadAll(IgniteTx, Collection, org.apache.ignite.lang.IgniteBiInClosure)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if {@link CacheFlag#LOCAL} flag is set on projection.
+     *
+     * @param keys Keys to get.
+     * @return Map of key-value pairs.
+     * @throws IgniteCheckedException If get operation failed.
+     * @throws CacheFlagException If failed projection flags validation.
+     */
+    public Map<K, V> getAll(@Nullable Collection<? extends K> keys) throws IgniteCheckedException;
+
+    /**
+     * Asynchronously retrieves values mapped to the specified keys from cache. Value will only be returned if
+     * its entry passed the optional filter provided. Filter check is atomic, and therefore the
+     * returned value is guaranteed to be consistent with the filter. If requested key-value pair
+     * is not present in the returned map, then it means that its entry did not pass the provided
+     * filter or cache has no mapping for the key.
+     * <p>
+     * If some value is not present in cache, then it will be looked up from swap storage. If
+     * it's not present in swap, or if swap is disabled, and if read-through is allowed, value
+     * will be loaded from {@link CacheStore} persistent storage via
+     * {@link CacheStore#loadAll(IgniteTx, Collection, org.apache.ignite.lang.IgniteBiInClosure)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if {@link CacheFlag#LOCAL} flag is set on projection.
+     *
+     * @param keys Key for the value to get.
+     * @return Future for the get operation.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    public IgniteFuture<Map<K, V>> getAllAsync(@Nullable Collection<? extends K> keys);
+
+    /**
+     * Stores given key-value pair in cache. If filters are provided, then entries will
+     * be stored in cache only if they pass the filter. Note that filter check is atomic,
+     * so value stored in cache is guaranteed to be consistent with the filters. If cache
+     * previously contained value for the given key, then this value is returned.
+     * In case of {@link CacheMode#PARTITIONED} or {@link CacheMode#REPLICATED} caches,
+     * the value will be loaded from the primary node, which in its turn may load the value
+     * from the swap storage, and consecutively, if it's not in swap,
+     * from the underlying persistent storage. If value has to be loaded from persistent
+     * storage,  {@link CacheStore#load(IgniteTx, Object)} method will be used.
+     * <p>
+     * If the returned value is not needed, method {@link #putx(Object, Object, org.apache.ignite.lang.IgnitePredicate[])} should
+     * always be used instead of this one to avoid the overhead associated with returning of the previous value.
+     * <p>
+     * If write-through is enabled, the stored value will be persisted to {@link CacheStore}
+     * via {@link CacheStore#put(IgniteTx, Object, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param key Key to store in cache.
+     * @param val Value to be associated with the given key.
+     * @param filter Optional filter to check prior to putting value in cache. Note
+     *      that filter check is atomic with put operation.
+     * @return Previous value associated with specified key, or {@code null}
+     *  if entry did not pass the filter, or if there was no mapping for the key in swap
+     *  or in persistent storage.
+     * @throws NullPointerException If either key or value are {@code null}.
+     * @throws IgniteCheckedException If put operation failed.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    @Nullable public V put(K key, V val, @Nullable IgnitePredicate<CacheEntry<K, V>>... filter)
+        throws IgniteCheckedException;
+
+    /**
+     * Asynchronously stores given key-value pair in cache. If filters are provided, then entries will
+     * be stored in cache only if they pass the filter. Note that filter check is atomic,
+     * so value stored in cache is guaranteed to be consistent with the filters. If cache
+     * previously contained value for the given key, then this value is returned. Otherwise,
+     * in case of {@link CacheMode#REPLICATED} caches, the value will be loaded from swap
+     * and, if it's not there, and read-through is allowed, from the underlying
+     * {@link CacheStore} storage. In case of {@link CacheMode#PARTITIONED} caches,
+     * the value will be loaded from the primary node, which in its turn may load the value
+     * from the swap storage, and consecutively, if it's not in swap and read-through is allowed,
+     * from the underlying persistent storage. If value has to be loaded from persistent
+     * storage,  {@link CacheStore#load(IgniteTx, Object)} method will be used.
+     * <p>
+     * If the returned value is not needed, method {@link #putx(Object, Object, org.apache.ignite.lang.IgnitePredicate[])} should
+     * always be used instead of this one to avoid the overhead associated with returning of the previous value.
+     * <p>
+     * If write-through is enabled, the stored value will be persisted to {@link CacheStore}
+     * via {@link CacheStore#put(IgniteTx, Object, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param key Key to store in cache.
+     * @param val Value to be associated with the given key.
+     * @param filter Optional filter to check prior to putting value in cache. Note
+     *      that filter check is atomic with put operation.
+     * @return Future for the put operation.
+     * @throws NullPointerException If either key or value are {@code null}.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    public IgniteFuture<V> putAsync(K key, V val, @Nullable IgnitePredicate<CacheEntry<K, V>>... filter);
+
+    /**
+     * Stores given key-value pair in cache. If filters are provided, then entries will
+     * be stored in cache only if they pass the filter. Note that filter check is atomic,
+     * so value stored in cache is guaranteed to be consistent with the filters.
+     * <p>
+     * This method will return {@code true} if value is stored in cache and {@code false} otherwise.
+     * Unlike {@link #put(Object, Object, org.apache.ignite.lang.IgnitePredicate[])} method, it does not return previous
+     * value and, therefore, does not have any overhead associated with returning a value. It
+     * should be used whenever return value is not required.
+     * <p>
+     * If write-through is enabled, the stored value will be persisted to {@link CacheStore}
+     * via {@link CacheStore#put(IgniteTx, Object, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param key Key to store in cache.
+     * @param val Value to be associated with the given key.
+     * @param filter Optional filter to check prior to putting value in cache. Note
+     *      that filter check is atomic with put operation.
+     * @return {@code True} if optional filter passed and value was stored in cache,
+     *      {@code false} otherwise. Note that this method will return {@code true} if filter is not
+     *      specified.
+     * @throws NullPointerException If either key or value are {@code null}.
+     * @throws IgniteCheckedException If put operation failed.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    public boolean putx(K key, V val, @Nullable IgnitePredicate<CacheEntry<K, V>>... filter)
+        throws IgniteCheckedException;
+
+    /**
+     * Stores given key-value pair in cache. If filters are provided, then entries will
+     * be stored in cache only if they pass the filter. Note that filter check is atomic,
+     * so value stored in cache is guaranteed to be consistent with the filters.
+     * <p>
+     * This method will return {@code true} if value is stored in cache and {@code false} otherwise.
+     * Unlike {@link #put(Object, Object, org.apache.ignite.lang.IgnitePredicate[])} method, it does not return previous
+     * value and, therefore, does not have any overhead associated with returning of a value. It
+     * should always be used whenever return value is not required.
+     * <p>
+     * If write-through is enabled, the stored value will be persisted to {@link CacheStore}
+     * via {@link CacheStore#put(IgniteTx, Object, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param key Key to store in cache.
+     * @param val Value to be associated with the given key.
+     * @param filter Optional filter to check prior to putting value in cache. Note
+     *      that filter check is atomic with put operation.
+     * @return Future for the put operation. Future will return {@code true} if optional filter
+     *      passed and value was stored in cache, {@code false} otherwise. Note that future will
+     *      return {@code true} if filter is not specified.
+     * @throws NullPointerException If either key or value are {@code null}.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    public IgniteFuture<Boolean> putxAsync(K key, V val, @Nullable IgnitePredicate<CacheEntry<K, V>>... filter);
+
+    /**
+     * Stores given key-value pair in cache only if cache had no previous mapping for it. If cache
+     * previously contained value for the given key, then this value is returned.
+     * In case of {@link CacheMode#PARTITIONED} or {@link CacheMode#REPLICATED} caches,
+     * the value will be loaded from the primary node, which in its turn may load the value
+     * from the swap storage, and consecutively, if it's not in swap,
+     * from the underlying persistent storage. If value has to be loaded from persistent
+     * storage, {@link CacheStore#load(IgniteTx, Object)} method will be used.
+     * <p>
+     * If the returned value is not needed, method {@link #putxIfAbsent(Object, Object)} should
+     * always be used instead of this one to avoid the overhead associated with returning of the
+     * previous value.
+     * <p>
+     * If write-through is enabled, the stored value will be persisted to {@link CacheStore}
+     * via {@link CacheStore#put(IgniteTx, Object, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param key Key to store in cache.
+     * @param val Value to be associated with the given key.
+     * @return Previously contained value regardless of whether put happened or not.
+     * @throws NullPointerException If either key or value are {@code null}.
+     * @throws IgniteCheckedException If put operation failed.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    @Nullable public V putIfAbsent(K key, V val) throws IgniteCheckedException;
+
+    /**
+     * Asynchronously stores given key-value pair in cache only if cache had no previous mapping for it. If cache
+     * previously contained value for the given key, then this value is returned. In case of
+     * {@link CacheMode#PARTITIONED} or {@link CacheMode#REPLICATED} caches,
+     * the value will be loaded from the primary node, which in its turn may load the value
+     * from the swap storage, and consecutively, if it's not in swap,
+     * from the underlying persistent storage. If value has to be loaded from persistent
+     * storage, {@link CacheStore#load(IgniteTx, Object)} method will be used.
+     * <p>
+     * If the returned value is not needed, method {@link #putxIfAbsentAsync(Object, Object)} should
+     * always be used instead of this one to avoid the overhead associated with returning of the
+     * previous value.
+     * <p>
+     * If write-through is enabled, the stored value will be persisted to {@link CacheStore}
+     * via {@link CacheStore#put(IgniteTx, Object, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param key Key to store in cache.
+     * @param val Value to be associated with the given key.
+     * @return Future of put operation which will provide previously contained value
+     *   regardless of whether put happened or not.
+     * @throws NullPointerException If either key or value are {@code null}.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    public IgniteFuture<V> putIfAbsentAsync(K key, V val);
+
+    /**
+     * Stores given key-value pair in cache only if cache had no previous mapping for it.
+     * <p>
+     * This method will return {@code true} if value is stored in cache and {@code false} otherwise.
+     * Unlike {@link #putIfAbsent(Object, Object)} method, it does not return previous
+     * value and, therefore, does not have any overhead associated with returning of a value. It
+     * should always be used whenever return value is not required.
+     * <p>
+     * If write-through is enabled, the stored value will be persisted to {@link CacheStore}
+     * via {@link CacheStore#put(IgniteTx, Object, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param key Key to store in cache.
+     * @param val Value to be associated with the given key.
+     * @return {@code true} if value is stored in cache and {@code false} otherwise.
+     * @throws NullPointerException If either key or value are {@code null}.
+     * @throws IgniteCheckedException If put operation failed.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    public boolean putxIfAbsent(K key, V val) throws IgniteCheckedException;
+
+    /**
+     * Asynchronously stores given key-value pair in cache only if cache had no previous mapping for it.
+     * <p>
+     * This method will return {@code true} if value is stored in cache and {@code false} otherwise.
+     * Unlike {@link #putIfAbsent(Object, Object)} method, it does not return previous
+     * value and, therefore, does not have any overhead associated with returning of a value. It
+     * should always be used whenever return value is not required.
+     * <p>
+     * If write-through is enabled, the stored value will be persisted to {@link CacheStore}
+     * via {@link CacheStore#put(IgniteTx, Object, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param key Key to store in cache.
+     * @param val Value to be associated with the given key.
+     * @return Future for this put operation.
+     * @throws NullPointerException If either key or value are {@code null}.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    public IgniteFuture<Boolean> putxIfAbsentAsync(K key, V val);
+
+    /**
+     * Stores given key-value pair in cache only if there is a previous mapping for it.
+     * In case of {@link CacheMode#PARTITIONED} or {@link CacheMode#REPLICATED} caches,
+     * the value will be loaded from the primary node, which in its turn may load the value
+     * from the swap storage, and consecutively, if it's not in swap,
+     * from the underlying persistent storage. If value has to be loaded from persistent
+     * storage, {@link CacheStore#load(IgniteTx, Object)} method will be used.
+     * <p>
+     * If the returned value is not needed, method {@link #replacex(Object, Object)} should
+     * always be used instead of this one to avoid the overhead associated with returning of the
+     * previous value.
+     * <p>
+     * If write-through is enabled, the stored value will be persisted to {@link CacheStore}
+     * via {@link CacheStore#put(IgniteTx, Object, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param key Key to store in cache.
+     * @param val Value to be associated with the given key.
+     * @return Previously contained value regardless of whether replace happened or not.
+     * @throws NullPointerException If either key or value are {@code null}.
+     * @throws IgniteCheckedException If replace operation failed.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    @Nullable public V replace(K key, V val) throws IgniteCheckedException;
+
+    /**
+     * Asynchronously stores given key-value pair in cache only if there is a previous mapping for it. If cache
+     * previously contained value for the given key, then this value is returned.In case of
+     * {@link CacheMode#PARTITIONED} caches, the value will be loaded from the primary node,
+     * which in its turn may load the value from the swap storage, and consecutively, if it's not in swap,
+     * from the underlying persistent storage. If value has to be loaded from persistent
+     * storage, {@link CacheStore#load(IgniteTx, Object)} method will be used.
+     * <p>
+     * If the returned value is not needed, method {@link #replacex(Object, Object)} should
+     * always be used instead of this one to avoid the overhead associated with returning of the
+     * previous value.
+     * <p>
+     * If write-through is enabled, the stored value will be persisted to {@link CacheStore}
+     * via {@link CacheStore#put(IgniteTx, Object, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param key Key to store in cache.
+     * @param val Value to be associated with the given key.
+     * @return Future for replace operation.
+     * @throws NullPointerException If either key or value are {@code null}.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    public IgniteFuture<V> replaceAsync(K key, V val);
+
+    /**
+     * Stores given key-value pair in cache only if only if there is a previous mapping for it.
+     * <p>
+     * This method will return {@code true} if value is stored in cache and {@code false} otherwise.
+     * Unlike {@link #replace(Object, Object)} method, it does not return previous
+     * value and, therefore, does not have any overhead associated with returning of a value. It
+     * should always be used whenever return value is not required.
+     * <p>
+     * If write-through is enabled, the stored value will be persisted to {@link CacheStore}
+     * via {@link CacheStore#put(IgniteTx, Object, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param key Key to store in cache.
+     * @param val Value to be associated with the given key.
+     * @return {@code True} if replace happened, {@code false} otherwise.
+     * @throws NullPointerException If either key or value are {@code null}.
+     * @throws IgniteCheckedException If replace operation failed.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    public boolean replacex(K key, V val) throws IgniteCheckedException;
+
+    /**
+     * Asynchronously stores given key-value pair in cache only if only if there is a previous mapping for it.
+     * <p>
+     * This method will return {@code true} if value is stored in cache and {@code false} otherwise.
+     * Unlike {@link #replaceAsync(Object, Object)} method, it does not return previous
+     * value and, therefore, does not have any overhead associated with returning of a value. It
+     * should always be used whenever return value is not required.
+     * <p>
+     * If write-through is enabled, the stored value will be persisted to {@link CacheStore}
+     * via {@link CacheStore#put(IgniteTx, Object, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param key Key to store in cache.
+     * @param val Value to be associated with the given key.
+     * @return Future for the replace operation.
+     * @throws NullPointerException If either key or value are {@code null}.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    public IgniteFuture<Boolean> replacexAsync(K key, V val);
+
+    /**
+     * Stores given key-value pair in cache only if only if the previous value is equal to the
+     * {@code 'oldVal'} passed in.
+     * <p>
+     * This method will return {@code true} if value is stored in cache and {@code false} otherwise.
+     * <p>
+     * If write-through is enabled, the stored value will be persisted to {@link CacheStore}
+     * via {@link CacheStore#put(IgniteTx, Object, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param key Key to store in cache.
+     * @param oldVal Old value to match.
+     * @param newVal Value to be associated with the given key.
+     * @return {@code True} if replace happened, {@code false} otherwise.
+     * @throws NullPointerException If either key or value are {@code null}.
+     * @throws IgniteCheckedException If replace operation failed.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    public boolean replace(K key, V oldVal, V newVal) throws IgniteCheckedException;
+
+    /**
+     * Asynchronously stores given key-value pair in cache only if only if the previous value is equal to the
+     * {@code 'oldVal'} passed in.
+     * <p>
+     * This method will return {@code true} if value is stored in cache and {@code false} otherwise.
+     * <p>
+     * If write-through is enabled, the stored value will be persisted to {@link CacheStore}
+     * via {@link CacheStore#put(IgniteTx, Object, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param key Key to store in cache.
+     * @param oldVal Old value to match.
+     * @param newVal Value to be associated with the given key.
+     * @return Future for the replace operation.
+     * @throws NullPointerException If either key or value are {@code null}.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    public IgniteFuture<Boolean> replaceAsync(K key, V oldVal, V newVal);
+
+    /**
+     * Stores given key-value pairs in cache. If filters are provided, then entries will
+     * be stored in cache only if they pass the filter. Note that filter check is atomic,
+     * so value stored in cache is guaranteed to be consistent with the filters.
+     * <p>
+     * If write-through is enabled, the stored values will be persisted to {@link CacheStore}
+     * via {@link CacheStore#putAll(IgniteTx, Map)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param m Key-value pairs to store in cache.
+     * @param filter Optional entry filter. If provided, then entry will
+     *      be stored only if the filter returned {@code true}.
+     * @throws IgniteCheckedException If put operation failed.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    public void putAll(@Nullable Map<? extends K, ? extends V> m,
+        @Nullable IgnitePredicate<CacheEntry<K, V>>... filter) throws IgniteCheckedException;
+
+    /**
+     * Asynchronously stores given key-value pairs in cache. If filters are provided, then entries will
+     * be stored in cache only if they pass the filter. Note that filter check is atomic,
+     * so value stored in cache is guaranteed to be consistent with the filters.
+     * <p>
+     * If write-through is enabled, the stored values will be persisted to {@link CacheStore}
+     * via {@link CacheStore#putAll(IgniteTx, Map)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param m Key-value pairs to store in cache.
+     * @param filter Optional entry filter. If provided, then entry will
+     *      be stored only if the filter returned {@code true}.
+     * @return Future for putAll operation.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    public IgniteFuture<?> putAllAsync(@Nullable Map<? extends K, ? extends V> m,
+        @Nullable IgnitePredicate<CacheEntry<K, V>>... filter);
+
+    /**
+     * Set of keys cached on this node. You can remove elements from this set, but you cannot add elements
+     * to this set. All removal operation will be reflected on the cache itself.
+     * <p>
+     * Iterator over this set will not fail if set was concurrently updated
+     * by another thread. This means that iterator may or may not return latest
+     * keys depending on whether they were added before or after current
+     * iterator position.
+     * <p>
+     * NOTE: this operation is not distributed and returns only the keys cached on this node.
+     *
+     * @return Key set for this cache projection.
+     */
+    public Set<K> keySet();
+
+    /**
+     * Set of keys for which this node is primary.
+     * This set is dynamic and may change with grid topology changes.
+     * Note that this set will contain mappings for all keys, even if their values are
+     * {@code null} because they were invalidated. You can remove elements from
+     * this set, but you cannot add elements to this set. All removal operation will be
+     * reflected on the cache itself.
+     * <p>
+     * Iterator over this set will not fail if set was concurrently updated
+     * by another thread. This means that iterator may or may not return latest
+     * keys depending on whether they were added before or after current
+     * iterator position.
+     * <p>
+     * NOTE: this operation is not distributed and returns only the keys cached on this node.
+     *
+     * @return Primary key set for the current node.
+     */
+    public Set<K> primaryKeySet();
+
+    /**
+     * Collection of values cached on this node. You can remove
+     * elements from this collection, but you cannot add elements to this collection.
+     * All removal operation will be reflected on the cache itself.
+     * <p>
+     * Iterator over this collection will not fail if collection was
+     * concurrently updated by another thread. This means that iterator may or
+     * may not return latest values depending on whether they were added before
+     * or after current iterator position.
+     * <p>
+     * NOTE: this operation is not distributed and returns only the values cached on this node.
+     *
+     * @return Collection of cached values.
+     */
+    public Collection<V> values();
+
+    /**
+     * Collection of cached values for which this node is primary.
+     * This collection is dynamic and may change with grid topology changes.
+     * Note that this collection will not contain values that are {@code null}
+     * because they were invalided. You can remove elements from this collection,
+     * but you cannot add elements to this collection. All removal operation will be
+     * reflected on the cache itself.
+     * <p>
+     * Iterator over this collection will not fail if collection was
+     * concurrently updated by another thread. This means that iterator may or
+     * may not return latest values depending on whether they were added before
+     * or after current iterator position.
+     * <p>
+     * NOTE: this operation is not distributed and returns only the values cached on this node.
+     *
+     * @return Collection of primary cached values for the current node.
+     */
+    public Collection<V> primaryValues();
+
+    /**
+     * Gets set of all entries cached on this node. You can remove
+     * elements from this set, but you cannot add elements to this set.
+     * All removal operation will be reflected on the cache itself.
+     * <p>
+     * NOTE: this operation is not distributed and returns only the entries cached on this node.
+     *
+     * @return Entries that pass through key filter.
+     */
+    public Set<CacheEntry<K, V>> entrySet();
+
+    /**
+     * Gets set containing cache entries that belong to provided partition or {@code null}
+     * if partition is not found locally.
+     * <p>
+     * NOTE: this operation is not distributed and returns only the entries cached on this node.
+     *
+     * @param part Partition.
+     * @return Set containing partition's entries or {@code null} if partition is
+     *      not found locally.
+     */
+    @Nullable public Set<CacheEntry<K, V>> entrySet(int part);
+
+    /**
+     * Gets set of cache entries for which this node is primary.
+     * This set is dynamic and may change with grid topology changes. You can remove
+     * elements from this set, but you cannot add elements to this set.
+     * All removal operation will be reflected on the cache itself.
+     * <p>
+     * NOTE: this operation is not distributed and returns only the entries cached on this node.
+     *
+     * @return Primary cache entries that pass through key filter.
+     */
+    public Set<CacheEntry<K, V>> primaryEntrySet();
+
+    /**
+     * Starts transaction with default isolation, concurrency, timeout, and invalidation policy.
+     * All defaults are set in {@link CacheConfiguration} at startup.
+     *
+     * @return New transaction
+     * @throws IllegalStateException If transaction is already started by this thread.
+     * @throws UnsupportedOperationException If cache is {@link CacheAtomicityMode#ATOMIC}.
+     */
+    public IgniteTx txStart() throws IllegalStateException;
+
+    /**
+     * Starts new transaction with the specified concurrency and isolation.
+     *
+     * @param concurrency Concurrency.
+     * @param isolation Isolation.
+     * @return New transaction.
+     * @throws IllegalStateException If transaction is already started by this thread.
+     * @throws UnsupportedOperationException If cache is {@link CacheAtomicityMode#ATOMIC}.
+     */
+    public IgniteTx txStart(IgniteTxConcurrency concurrency, IgniteTxIsolation isolation);
+
+    /**
+     * Starts transaction with specified isolation, concurrency, timeout, invalidation flag,
+     * and number of participating entries.
+     *
+     * @param concurrency Concurrency.
+     * @param isolation Isolation.
+     * @param timeout Timeout.
+     * @param txSize Number of entries participating in transaction (may be approximate).
+     * @return New transaction.
+     * @throws IllegalStateException If transaction is already started by this thread.
+     * @throws UnsupportedOperationException If cache is {@link CacheAtomicityMode#ATOMIC}.
+     */
+    public IgniteTx txStart(IgniteTxConcurrency concurrency, IgniteTxIsolation isolation, long timeout,
+        int txSize);
+
+    /**
+     * Starts {@code affinity-group-locked} transaction based on affinity key. In this mode only affinity key
+     * is locked and all other entries in transaction are written without locking. However,
+     * all keys in such transaction must have the same affinity key. Node on which transaction
+     * is started must be primary for the given affinity key (an exception is thrown otherwise).
+     * <p>
+     * Since only affinity key is locked, and no individual keys, it is user's responsibility to make sure
+     * there are no other concurrent explicit updates directly on individual keys participating in the
+     * transaction. All updates to the keys involved should always go through {@code affinity-group-locked}
+     * transaction, otherwise cache may be left in inconsistent state.
+     * <p>
+     * If cache sanity check is enabled ({@link org.apache.ignite.configuration.IgniteConfiguration#isCacheSanityCheckEnabled()}),
+     * the following checks are performed:
+     * <ul>
+     *     <li>
+     *         An exception will be thrown if affinity key differs from one specified on transaction start.
+     *     </li>
+     *     <li>
+     *         An exception is thrown if entry participating in transaction is externally locked at commit.
+     *     </li>
+     * </ul>
+     *
+     * @param affinityKey Affinity key for all entries updated by transaction. This node
+     *      must be primary for this key.
+     * @param timeout Timeout ({@code 0} for default).
+     * @param txSize Number of entries participating in transaction (may be approximate), {@code 0} for default.
+     * @param concurrency Transaction concurrency control.
+     * @param isolation Cache transaction isolation level.
+     * @return Started transaction.
+     * @throws IllegalStateException If transaction is already started by this thread.
+     * @throws IgniteCheckedException If local node is not primary for any of provided keys.
+     * @throws UnsupportedOperationException If cache is {@link CacheAtomicityMode#ATOMIC}.
+     */
+    public IgniteTx txStartAffinity(Object affinityKey, IgniteTxConcurrency concurrency,
+        IgniteTxIsolation isolation, long timeout, int txSize) throws IllegalStateException, IgniteCheckedException;
+
+    /**
+     * Starts {@code partition-group-locked} transaction based on partition ID. In this mode the whole partition
+     * is locked and all other entries in transaction are written without locking. However,
+     * all keys in such transaction must belong to the same partition. Node on which transaction
+     * is started must be primary for the given partition (an exception is thrown otherwise).
+     * <p>
+     * Since only partition is locked, and no individual keys, it is user's responsibility to make sure
+     * there are no other concurrent explicit updates directly on individual keys participating in the
+     * transaction. All updates to the keys involved should always go through {@code partition-group-locked}
+     * transaction, otherwise, cache may be left in inconsistent state.
+     * <p>
+     * If cache sanity check is enabled ({@link org.apache.ignite.configuration.IgniteConfiguration#isCacheSanityCheckEnabled()}),
+     * the following checks are performed:
+     * <ul>
+     *     <li>
+     *         An exception will be thrown if key partition differs from one specified on transaction start.
+     *     </li>
+     *     <li>
+     *         An exception is thrown if entry participating in transaction is externally locked at commit.
+     *     </li>
+     * </ul>
+     *
+     * @param partId Partition id for which transaction is started. This node
+     *      must be primary for this partition.
+     * @param timeout Timeout ({@code 0} for default).
+     * @param txSize Number of entries participating in transaction (may be approximate), {@code 0} for default.
+     * @param concurrency Transaction concurrency control.
+     * @param isolation Cache transaction isolation level.
+     * @return Started transaction.
+     * @throws IllegalStateException If transaction is already started by this thread.
+     * @throws IgniteCheckedException If local node is not primary for any of provided keys.
+     * @throws UnsupportedOperationException If cache is {@link CacheAtomicityMode#ATOMIC}.
+     */
+    public IgniteTx txStartPartition(int partId, IgniteTxConcurrency concurrency,
+        IgniteTxIsolation isolation, long timeout, int txSize) throws IllegalStateException, IgniteCheckedException;
+
+    /**
+     * Gets transaction started by this thread or {@code null} if this thread does
+     * not have a transaction.
+     *
+     * @return Transaction started by this thread or {@code null} if this thread
+     *      does not have a transaction.
+     */
+    @Nullable public IgniteTx tx();
+
+    /**
+     * Gets entry from cache with the specified key. The returned entry can
+     * be used even after entry key has been removed from cache. In that
+     * case, every operation on returned entry will result in creation of a
+     * new entry.
+     * <p>
+     * Note that this method can return {@code null} if projection is configured as
+     * pre-filtered and entry key and value don't pass key-value filter of the projection.
+     *
+     * @param key Entry key.
+     * @return Cache entry or {@code null} if projection pre-filtering was not passed.
+     */
+    @Nullable public CacheEntry<K, V> entry(K key);
+
+    /**
+     * Evicts entry associated with given key from cache. Note, that entry will be evicted
+     * only if it's not used (not participating in any locks or transactions).
+     * <p>
+     * If {@link CacheConfiguration#isSwapEnabled()} is set to {@code true} and
+     * {@link CacheFlag#SKIP_SWAP} is not enabled, the evicted entry will
+     * be swapped to offheap, and then to disk.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#READ}.
+     *
+     * @param key Key to evict from cache.
+     * @return {@code True} if entry could be evicted, {@code false} otherwise.
+     */
+    public boolean evict(K key);
+
+    /**
+     * Attempts to evict all cache entries. Note, that entry will be
+     * evicted only if it's not used (not participating in any locks or
+     * transactions).
+     * <p>
+     * If {@link CacheConfiguration#isSwapEnabled()} is set to {@code true} and
+     * {@link CacheFlag#SKIP_SWAP} is not enabled, the evicted entry will
+     * be swapped to offheap, and then to disk.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#READ}.
+     */
+    public void evictAll();
+
+    /**
+     * Attempts to evict all entries associated with keys. Note,
+     * that entry will be evicted only if it's not used (not
+     * participating in any locks or transactions).
+     * <p>
+     * If {@link CacheConfiguration#isSwapEnabled()} is set to {@code true} and
+     * {@link CacheFlag#SKIP_SWAP} is not enabled, the evicted entry will
+     * be swapped to offheap, and then to disk.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#READ}.
+     *
+     * @param keys Keys to evict.
+     */
+    public void evictAll(@Nullable Collection<? extends K> keys);
+
+    /**
+     * Clears all entries from this cache only if the entry is not
+     * currently locked or participating in a transaction.
+     * <p>
+     * If {@link CacheConfiguration#isSwapEnabled()} is set to {@code true} and
+     * {@link CacheFlag#SKIP_SWAP} is not enabled, the evicted entries will
+     * also be cleared from swap.
+     * <p>
+     * Note that this operation is local as it merely clears
+     * entries from local cache. It does not remove entries from
+     * remote caches or from underlying persistent storage.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#READ}.
+     */
+    public void clearAll();
+
+    /**
+     * Clears an entry from this cache and swap storage only if the entry
+     * is not currently locked, and is not participating in a transaction.
+     * <p>
+     * If {@link CacheConfiguration#isSwapEnabled()} is set to {@code true} and
+     * {@link CacheFlag#SKIP_SWAP} is not enabled, the evicted entries will
+     * also be cleared from swap.
+     * <p>
+     * Note that this operation is local as it merely clears
+     * an entry from local cache. It does not remove entries from
+     * remote caches or from underlying persistent storage.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#READ}.
+     *
+     * @param key Key to clear.
+     * @return {@code True} if entry was successfully cleared from cache, {@code false}
+     *      if entry was in use at the time of this method invocation and could not be
+     *      cleared.
+     */
+    public boolean clear(K key);
+
+    /**
+     * Clears cache on all nodes that store it's data. That is, caches are cleared on remote
+     * nodes and local node, as opposed to {@link CacheProjection#clearAll()} method which only
+     * clears local node's cache.
+     * <p>
+     * GridGain will make the best attempt to clear caches on all nodes. If some caches
+     * could not be cleared, then exception will be thrown.
+     * <p>
+     * This method is identical to calling {@link #globalClearAll(long) globalClearAll(0)}.
+     *
+     * @throws IgniteCheckedException In case of cache could not be cleared on any of the nodes.
+     * @deprecated Deprecated in favor of {@link #globalClearAll(long)} method.
+     */
+    @Deprecated
+    public void globalClearAll() throws IgniteCheckedException;
+
+    /**
+     * Clears cache on all nodes that store it's data. That is, caches are cleared on remote
+     * nodes and local node, as opposed to {@link CacheProjection#clearAll()} method which only
+     * clears local node's cache.
+     * <p>
+     * GridGain will make the best attempt to clear caches on all nodes. If some caches
+     * could not be cleared, then exception will be thrown.
+     *
+     * @param timeout Timeout for clear all task in milliseconds (0 for never).
+     *      Set it to larger value for large caches.
+     * @throws IgniteCheckedException In case of cache could not be cleared on any of the nodes.
+     */
+    public void globalClearAll(long timeout) throws IgniteCheckedException;
+
+    /**
+     * Clears serialized value bytes from entry (if any) leaving only object representation.
+     *
+     * @param key Key to compact.
+     * @throws IgniteCheckedException If failed to compact.
+     * @return {@code true} if entry was deleted from cache (i.e. was expired).
+     */
+    public boolean compact(K key) throws IgniteCheckedException;
+
+    /**
+     * Clears serialized value bytes from cache entries (if any) leaving only object representation.
+     * @throws IgniteCheckedException If failed to compact.
+     */
+    public void compactAll() throws IgniteCheckedException;
+
+    /**
+     * Removes given key mapping from cache. If cache previously contained value for the given key,
+     * then this value is returned. In case of {@link CacheMode#PARTITIONED} or {@link CacheMode#REPLICATED}
+     * caches, the value will be loaded from the primary node, which in its turn may load the value
+     * from the disk-based swap storage, and consecutively, if it's not in swap,
+     * from the underlying persistent storage. If value has to be loaded from persistent
+     * storage, {@link CacheStore#load(IgniteTx, Object)} method will be used.
+     * <p>
+     * If the returned value is not needed, method {@link #removex(Object, org.apache.ignite.lang.IgnitePredicate[])} should
+     * always be used instead of this one to avoid the overhead associated with returning of the
+     * previous value.
+     * <p>
+     * If write-through is enabled, the value will be removed from {@link CacheStore}
+     * via {@link CacheStore#remove(IgniteTx, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param key Key whose mapping is to be removed from cache.
+     * @param filter Optional filter to check prior to removing value form cache. Note
+     *      that filter is checked atomically together with remove operation.
+     * @return Previous value associated with specified key, or {@code null}
+     *      if there was no value for this key.
+     * @throws NullPointerException If key is {@code null}.
+     * @throws IgniteCheckedException If remove operation failed.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    @Nullable public V remove(K key, @Nullable IgnitePredicate<CacheEntry<K, V>>... filter)
+        throws IgniteCheckedException;
+
+    /**
+     * Asynchronously removes given key mapping from cache. If cache previously contained value for the given key,
+     * then this value is returned. In case of {@link CacheMode#PARTITIONED} or {@link CacheMode#REPLICATED}
+     * caches, the value will be loaded from the primary node, which in its turn may load the value
+     * from the swap storage, and consecutively, if it's not in swap,
+     * from the underlying persistent storage. If value has to be loaded from persistent
+     * storage, {@link CacheStore#load(IgniteTx, Object)} method will be used.
+     * <p>
+     * If the returned value is not needed, method {@link #removex(Object, org.apache.ignite.lang.IgnitePredicate[])} should
+     * always be used instead of this one to avoid the overhead associated with returning of the
+     * previous value.
+     * <p>
+     * If write-through is enabled, the value will be removed from {@link CacheStore}
+     * via {@link CacheStore#remove(IgniteTx, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param key Key whose mapping is to be removed from cache.
+     * @param filter Optional filter to check prior to removing value form cache. Note
+     *      that filter is checked atomically together with remove operation.
+     * @return Future for the remove operation.
+     * @throws NullPointerException if the key is {@code null}.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    public IgniteFuture<V> removeAsync(K key, IgnitePredicate<CacheEntry<K, V>>... filter);
+
+    /**
+     * Removes given key mapping from cache.
+     * <p>
+     * This method will return {@code true} if remove did occur, which means that all optionally
+     * provided filters have passed and there was something to remove, {@code false} otherwise.
+     * <p>
+     * If write-through is enabled, the value will be removed from {@link CacheStore}
+     * via {@link CacheStore#remove(IgniteTx, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param key Key whose mapping is to be removed from cache.
+     * @param filter Optional filter to check prior to removing value form cache. Note
+     *      that filter is checked atomically together with remove operation.
+     * @return {@code True} if filter passed validation and entry was removed, {@code false} otherwise.
+     *      Note that if filter is not specified, this method will return {@code true}.
+     * @throws NullPointerException if the key is {@code null}.
+     * @throws IgniteCheckedException If remove failed.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    public boolean removex(K key, @Nullable IgnitePredicate<CacheEntry<K, V>>... filter)
+        throws IgniteCheckedException;
+
+    /**
+     * Asynchronously removes given key mapping from cache.
+     * <p>
+     * This method will return {@code true} if remove did occur, which means that all optionally
+     * provided filters have passed and there was something to remove, {@code false} otherwise.
+     * <p>
+     * If write-through is enabled, the value will be removed from {@link CacheStore}
+     * via {@link CacheStore#remove(IgniteTx, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param key Key whose mapping is to be removed from cache.
+     * @param filter Optional filter to check prior to removing value form cache. Note
+     *      that filter is checked atomically together with remove operation.
+     * @return Future for the remove operation. The future will return {@code true}
+     *      if optional filters passed validation and remove did occur, {@code false} otherwise.
+     *      Note that if filter is not specified, this method will return {@code true}.
+     * @throws NullPointerException if the key is {@code null}.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    public IgniteFuture<Boolean> removexAsync(K key,
+        @Nullable IgnitePredicate<CacheEntry<K, V>>... filter);
+
+    /**
+     * Removes given key mapping from cache if one exists and value is equal to the passed in value.
+     * <p>
+     * If write-through is enabled, the value will be removed from {@link CacheStore}
+     * via {@link CacheStore#remove(IgniteTx, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param key Key whose mapping is to be removed from cache.
+     * @param val Value to match against currently cached value.
+     * @return {@code True} if entry was removed and passed in value matched the cached one,
+     *      {@code false} otherwise.
+     * @throws NullPointerException if the key or value is {@code null}.
+     * @throws IgniteCheckedException If remove failed.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    public boolean remove(K key, V val) throws IgniteCheckedException;
+
+    /**
+     * Asynchronously removes given key mapping from cache if one exists and value is equal to the passed in value.
+     * <p>
+     * This method will return {@code true} if remove did occur, which means that all optionally
+     * provided filters have passed and there was something to remove, {@code false} otherwise.
+     * <p>
+     * If write-through is enabled, the value will be removed from {@link CacheStore}
+     * via {@link CacheStore#remove(IgniteTx, Object)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param key Key whose mapping is to be removed from cache.
+     * @param val Value to match against currently cached value.
+     * @return Future for the remove operation. The future will return {@code true}
+     *      if currently cached value will match the passed in one.
+     * @throws NullPointerException if the key or value is {@code null}.
+     * @throws CacheFlagException If projection flags validation failed.
+     */
+    public IgniteFuture<Boolean> removeAsync(K key, V val);
+
+    /**
+     * Removes given key mappings from cache for entries for which the optionally passed in filters do
+     * pass.
+     * <p>
+     * If write-through is enabled, the values will be removed from {@link CacheStore}
+     * via {@link CacheStore#removeAll(IgniteTx, Collection)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param keys Keys whose mappings are to be removed from cache.
+     * @param filter Optional filter to check prior to removing value form cache. Note
+     *      that filter is checked atomically together with remove operation.
+     * @throws IgniteCheckedException If remove failed.
+     * @throws CacheFlagException If flags validation failed.
+     */
+    public void removeAll(@Nullable Collection<? extends K> keys,
+        @Nullable IgnitePredicate<CacheEntry<K, V>>... filter) throws IgniteCheckedException;
+
+    /**
+     * Asynchronously removes given key mappings from cache for entries for which the optionally
+     * passed in filters do pass.
+     * <p>
+     * If write-through is enabled, the values will be removed from {@link CacheStore}
+     * via {@link CacheStore#removeAll(IgniteTx, Collection)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param keys Keys whose mappings are to be removed from cache.
+     * @param filter Optional filter to check prior to removing value form cache. Note
+     *      that filter is checked atomically together with remove operation.
+     * @return Future for the remove operation. The future will complete whenever
+     *      remove operation completes.
+     * @throws CacheFlagException If flags validation failed.
+     */
+    public IgniteFuture<?> removeAllAsync(@Nullable Collection<? extends K> keys,
+        @Nullable IgnitePredicate<CacheEntry<K, V>>... filter);
+
+    /**
+     * Removes mappings from cache for entries for which the optionally passed in filters do
+     * pass. If passed in filters are {@code null}, then all entries in cache will be enrolled
+     * into transaction.
+     * <p>
+     * <b>USE WITH CARE</b> - if your cache has many entries that pass through the filter or if filter
+     * is empty, then transaction will quickly become very heavy and slow. Also, locks
+     * are acquired in undefined order, so it may cause a deadlock when used with
+     * other concurrent transactional updates.
+     * <p>
+     * If write-through is enabled, the values will be removed from {@link CacheStore}
+     * via {@link CacheStore#removeAll(IgniteTx, Collection)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param filter Filter used to supply keys for remove operation (if {@code null},
+     *      then nothing will be removed).
+     * @throws IgniteCheckedException If remove failed.
+     * @throws CacheFlagException If flags validation failed.
+     */
+    public void removeAll(@Nullable IgnitePredicate<CacheEntry<K, V>>... filter)
+        throws IgniteCheckedException;
+
+    /**
+     * Asynchronously removes mappings from cache for entries for which the optionally passed in filters do
+     * pass. If passed in filters are {@code null}, then all entries in cache will be enrolled
+     * into transaction.
+     * <p>
+     * <b>USE WITH CARE</b> - if your cache has many entries that pass through the filter or if filter
+     * is empty, then transaction will quickly become very heavy and slow.
+     * <p>
+     * If write-through is enabled, the values will be removed from {@link CacheStore}
+     * via {@link CacheStore#removeAll(IgniteTx, Collection)} method.
+     * <h2 class="header">Transactions</h2>
+     * This method is transactional and will enlist the entry into ongoing transaction
+     * if there is one.
+     * <h2 class="header">Cache Flags</h2>
+     * This method is not available if any of the following flags are set on projection:
+     * {@link CacheFlag#LOCAL}, {@link CacheFlag#READ}.
+     *
+     * @param filter Filter used to supply keys for remove operation (if {@code null},
+     *      then nothing will be removed).
+     * @return Future for the remove operation. The future will complete whenever
+     *      remove operation completes.
+     * @throws CacheFlagException If flags validation failed.
+     */
+    public IgniteFuture<?> removeAllAsync(@Nullable IgnitePredicate<CacheEntry<K, V>>... filter);
+
+    /**
+     * Synchronously acquires lock on a cached object with given
+     * key only if the passed in filter (if any) passes. This method
+     * together with filter check will be executed as one atomic operation.
+     * <h2 class="header">Transactions</h2>
+     * Locks are not transactional and should not be used f

<TRUNCATED>

Mime
View raw message