114 lines
7.5 KiB
Plaintext
114 lines
7.5 KiB
Plaintext
@defaultMessage spawns threads with vague names; use a custom thread factory and name threads so that you can tell (by its name) which executor it is associated with
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java.util.concurrent.Executors#newFixedThreadPool(int)
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java.util.concurrent.Executors#newSingleThreadExecutor()
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java.util.concurrent.Executors#newCachedThreadPool()
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java.util.concurrent.Executors#newSingleThreadScheduledExecutor()
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java.util.concurrent.Executors#newScheduledThreadPool(int)
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java.util.concurrent.Executors#defaultThreadFactory()
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java.util.concurrent.Executors#privilegedThreadFactory()
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java.lang.Character#codePointBefore(char[],int) @ Implicit start offset is error-prone when the char[] is a buffer and the first chars are random chars
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java.lang.Character#codePointAt(char[],int) @ Implicit end offset is error-prone when the char[] is a buffer and the last chars are random chars
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@defaultMessage Collections.sort dumps data into an array, sorts the array and reinserts data into the list, one should rather use Lucene's CollectionUtil sort methods which sort in place
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java.util.Collections#sort(java.util.List)
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java.util.Collections#sort(java.util.List,java.util.Comparator)
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java.io.StringReader#<init>(java.lang.String) @ Use FastStringReader instead
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@defaultMessage Reference management is tricky, leave it to SearcherManager
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org.apache.lucene.index.IndexReader#decRef()
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org.apache.lucene.index.IndexReader#incRef()
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org.apache.lucene.index.IndexReader#tryIncRef()
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@defaultMessage QueryWrapperFilter is cachable by default - use Queries#wrap instead
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org.apache.lucene.search.QueryWrapperFilter#<init>(org.apache.lucene.search.Query)
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@defaultMessage Because the filtercache doesn't take deletes into account FilteredQuery can't be used - use XFilteredQuery instead
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org.apache.lucene.search.FilteredQuery#<init>(org.apache.lucene.search.Query,org.apache.lucene.search.Filter)
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org.apache.lucene.search.FilteredQuery#<init>(org.apache.lucene.search.Query,org.apache.lucene.search.Filter,org.apache.lucene.search.FilteredQuery$FilterStrategy)
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@defaultMessage Pass the precision step from the mappings explicitly instead
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org.apache.lucene.search.NumericRangeQuery#newDoubleRange(java.lang.String,java.lang.Double,java.lang.Double,boolean,boolean)
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org.apache.lucene.search.NumericRangeQuery#newFloatRange(java.lang.String,java.lang.Float,java.lang.Float,boolean,boolean)
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org.apache.lucene.search.NumericRangeQuery#newIntRange(java.lang.String,java.lang.Integer,java.lang.Integer,boolean,boolean)
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org.apache.lucene.search.NumericRangeQuery#newLongRange(java.lang.String,java.lang.Long,java.lang.Long,boolean,boolean)
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org.apache.lucene.search.NumericRangeFilter#newDoubleRange(java.lang.String,java.lang.Double,java.lang.Double,boolean,boolean)
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org.apache.lucene.search.NumericRangeFilter#newFloatRange(java.lang.String,java.lang.Float,java.lang.Float,boolean,boolean)
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org.apache.lucene.search.NumericRangeFilter#newIntRange(java.lang.String,java.lang.Integer,java.lang.Integer,boolean,boolean)
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org.apache.lucene.search.NumericRangeFilter#newLongRange(java.lang.String,java.lang.Long,java.lang.Long,boolean,boolean)
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@defaultMessage Only use wait / notify when really needed try to use concurrency primitives, latches or callbacks instead.
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java.lang.Object#wait()
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java.lang.Object#wait(long)
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java.lang.Object#wait(long,int)
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java.lang.Object#notify()
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java.lang.Object#notifyAll()
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@defaultMessage Beware of the behavior of this method on MIN_VALUE
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java.lang.Math#abs(int)
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java.lang.Math#abs(long)
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@defaultMessage Please do not try to stop the world
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java.lang.System#gc()
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@defaultMessage Use Long.compare instead we are on Java7
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com.google.common.primitives.Longs#compare(long,long)
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@defaultMessage Use Channels.* methods to write to channels. Do not write directly.
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java.nio.channels.WritableByteChannel#write(java.nio.ByteBuffer)
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java.nio.channels.FileChannel#write(java.nio.ByteBuffer, long)
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java.nio.channels.GatheringByteChannel#write(java.nio.ByteBuffer[], int, int)
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java.nio.channels.GatheringByteChannel#write(java.nio.ByteBuffer[])
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java.nio.channels.ReadableByteChannel#read(java.nio.ByteBuffer)
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java.nio.channels.ScatteringByteChannel#read(java.nio.ByteBuffer[])
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java.nio.channels.ScatteringByteChannel#read(java.nio.ByteBuffer[], int, int)
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java.nio.channels.FileChannel#read(java.nio.ByteBuffer, long)
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@defaultMessage Use Lucene.parseLenient instead it strips off minor version
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org.apache.lucene.util.Version#parseLeniently(java.lang.String)
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@defaultMessage unsafe encoders/decoders have problems in the lzf compress library. Use variants of encode/decode functions which take Encoder/Decoder.
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com.ning.compress.lzf.impl.UnsafeChunkEncoders#createEncoder(int)
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com.ning.compress.lzf.impl.UnsafeChunkEncoders#createNonAllocatingEncoder(int)
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com.ning.compress.lzf.impl.UnsafeChunkEncoders#createEncoder(int, com.ning.compress.BufferRecycler)
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com.ning.compress.lzf.impl.UnsafeChunkEncoders#createNonAllocatingEncoder(int, com.ning.compress.BufferRecycler)
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com.ning.compress.lzf.impl.UnsafeChunkDecoder#<init>()
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com.ning.compress.lzf.parallel.CompressTask
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com.ning.compress.lzf.util.ChunkEncoderFactory#optimalInstance()
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com.ning.compress.lzf.util.ChunkEncoderFactory#optimalInstance(int)
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com.ning.compress.lzf.util.ChunkEncoderFactory#optimalNonAllocatingInstance(int)
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com.ning.compress.lzf.util.ChunkEncoderFactory#optimalInstance(com.ning.compress.BufferRecycler)
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com.ning.compress.lzf.util.ChunkEncoderFactory#optimalInstance(int, com.ning.compress.BufferRecycler)
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com.ning.compress.lzf.util.ChunkEncoderFactory#optimalNonAllocatingInstance(int, com.ning.compress.BufferRecycler)
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com.ning.compress.lzf.util.ChunkDecoderFactory#optimalInstance()
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com.ning.compress.lzf.util.LZFFileInputStream#<init>(java.io.File)
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com.ning.compress.lzf.util.LZFFileInputStream#<init>(java.io.FileDescriptor)
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com.ning.compress.lzf.util.LZFFileInputStream#<init>(java.lang.String)
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com.ning.compress.lzf.util.LZFFileOutputStream#<init>(java.io.File)
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com.ning.compress.lzf.util.LZFFileOutputStream#<init>(java.io.File, boolean)
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com.ning.compress.lzf.util.LZFFileOutputStream#<init>(java.io.FileDescriptor)
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com.ning.compress.lzf.util.LZFFileOutputStream#<init>(java.lang.String)
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com.ning.compress.lzf.util.LZFFileOutputStream#<init>(java.lang.String, boolean)
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com.ning.compress.lzf.LZFEncoder#encode(byte[])
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com.ning.compress.lzf.LZFEncoder#encode(byte[], int, int)
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com.ning.compress.lzf.LZFEncoder#encode(byte[], int, int, com.ning.compress.BufferRecycler)
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com.ning.compress.lzf.LZFEncoder#appendEncoded(byte[], int, int, byte[], int)
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com.ning.compress.lzf.LZFEncoder#appendEncoded(byte[], int, int, byte[], int, com.ning.compress.BufferRecycler)
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com.ning.compress.lzf.LZFCompressingInputStream#<init>(java.io.InputStream)
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com.ning.compress.lzf.LZFDecoder#fastDecoder()
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com.ning.compress.lzf.LZFDecoder#decode(byte[])
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com.ning.compress.lzf.LZFDecoder#decode(byte[], int, int)
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com.ning.compress.lzf.LZFDecoder#decode(byte[], byte[])
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com.ning.compress.lzf.LZFDecoder#decode(byte[], int, int, byte[])
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com.ning.compress.lzf.LZFInputStream#<init>(java.io.InputStream)
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com.ning.compress.lzf.LZFInputStream#<init>(java.io.InputStream, boolean)
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com.ning.compress.lzf.LZFInputStream#<init>(java.io.InputStream, com.ning.compress.BufferRecycler)
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com.ning.compress.lzf.LZFInputStream#<init>(java.io.InputStream, com.ning.compress.BufferRecycler, boolean)
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com.ning.compress.lzf.LZFOutputStream#<init>(java.io.OutputStream)
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com.ning.compress.lzf.LZFOutputStream#<init>(java.io.OutputStream, com.ning.compress.BufferRecycler)
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com.ning.compress.lzf.LZFUncompressor#<init>(com.ning.compress.DataHandler)
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com.ning.compress.lzf.LZFUncompressor#<init>(com.ning.compress.DataHandler, com.ning.compress.BufferRecycler)
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