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RocksDB fat jar that contains .so files for linux32 and linux64 (glibc and musl-libc), jnilib files for Mac OSX, and a .dll for Windows x64.

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// Copyright (c) 2011-present, Facebook, Inc.  All rights reserved.
//  This source code is licensed under both the GPLv2 (found in the
//  COPYING file in the root directory) and Apache 2.0 License
//  (found in the LICENSE.Apache file in the root directory).
package org.rocksdb;

/**
 * This class controls the behaviour
 * of Java implementations of
 * AbstractComparator
 * 

* Note that dispose() must be called before a ComparatorOptions * instance becomes out-of-scope to release the allocated memory in C++. */ public class ComparatorOptions extends RocksObject { public ComparatorOptions() { super(newComparatorOptions()); } /** * Get the synchronisation type used to guard the reused buffers. * Only used if {@link #maxReusedBufferSize()} > 0 * Default: {@link ReusedSynchronisationType#ADAPTIVE_MUTEX} * * @return the synchronisation type */ public ReusedSynchronisationType reusedSynchronisationType() { assert(isOwningHandle()); return ReusedSynchronisationType.getReusedSynchronisationType( reusedSynchronisationType(nativeHandle_)); } /** * Set the synchronisation type used to guard the reused buffers. * Only used if {@link #maxReusedBufferSize()} > 0 * Default: {@link ReusedSynchronisationType#ADAPTIVE_MUTEX} * * @param reusedSynchronisationType the synchronisation type * * @return the reference to the current comparator options. */ public ComparatorOptions setReusedSynchronisationType( final ReusedSynchronisationType reusedSynchronisationType) { assert (isOwningHandle()); setReusedSynchronisationType(nativeHandle_, reusedSynchronisationType.getValue()); return this; } /** * Indicates if a direct byte buffer (i.e. outside the normal * garbage-collected heap) is used, as opposed to a non-direct byte buffer * which is a wrapper around an on-heap byte[]. *

* Default: true * * @return true if a direct byte buffer will be used, false otherwise */ public boolean useDirectBuffer() { assert(isOwningHandle()); return useDirectBuffer(nativeHandle_); } /** * Controls whether a direct byte buffer (i.e. outside the normal * garbage-collected heap) is used, as opposed to a non-direct byte buffer * which is a wrapper around an on-heap byte[]. *

* Default: true * * @param useDirectBuffer true if a direct byte buffer should be used, * false otherwise * @return the reference to the current comparator options. */ public ComparatorOptions setUseDirectBuffer(final boolean useDirectBuffer) { assert(isOwningHandle()); setUseDirectBuffer(nativeHandle_, useDirectBuffer); return this; } /** * Maximum size of a buffer (in bytes) that will be reused. * Comparators will use 5 of these buffers, * so the retained memory size will be 5 * max_reused_buffer_size. * When a buffer is needed for transferring data to a callback, * if it requires less than {@code maxReuseBufferSize}, then an * existing buffer will be reused, else a new buffer will be * allocated just for that callback. *

* Default: 64 bytes * * @return the maximum size of a buffer which is reused, * or 0 if reuse is disabled */ public int maxReusedBufferSize() { assert(isOwningHandle()); return maxReusedBufferSize(nativeHandle_); } /** * Sets the maximum size of a buffer (in bytes) that will be reused. * Comparators will use 5 of these buffers, * so the retained memory size will be 5 * max_reused_buffer_size. * When a buffer is needed for transferring data to a callback, * if it requires less than {@code maxReuseBufferSize}, then an * existing buffer will be reused, else a new buffer will be * allocated just for that callback. *

* Default: 64 bytes * * @param maxReusedBufferSize the maximum size for a buffer to reuse, or 0 to * disable reuse * * @return the maximum size of a buffer which is reused */ public ComparatorOptions setMaxReusedBufferSize(final int maxReusedBufferSize) { assert(isOwningHandle()); setMaxReusedBufferSize(nativeHandle_, maxReusedBufferSize); return this; } private static native long newComparatorOptions(); private native byte reusedSynchronisationType(final long handle); private native void setReusedSynchronisationType(final long handle, final byte reusedSynchronisationType); private native boolean useDirectBuffer(final long handle); private native void setUseDirectBuffer(final long handle, final boolean useDirectBuffer); private native int maxReusedBufferSize(final long handle); private native void setMaxReusedBufferSize(final long handle, final int maxReuseBufferSize); @Override protected final native void disposeInternal(final long handle); }





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