IndexWriter creates and maintains an index.
The create argument to the
constructor
determines whether a new index is created, or whether an existing index is
opened. Note that you
can open an index with create=true even while readers are
using the index. The old readers will continue to search
the "point in time" snapshot they had opened, and won't
see the newly created index until they re-open. There are
also constructors
with no create argument which
will create a new index if there is not already an index at the
provided path and otherwise open the existing index.
In either case, documents are added with addDocument and removed with deleteDocuments(Term) or deleteDocuments(Query). A document can be updated with updateDocument (which just deletes and then adds the entire document). When finished adding, deleting and updating documents, close should be called.
These changes are buffered in memory and periodically flushed to the {@link Directory} (during the above method calls). A flush is triggered when there are enough buffered deletes (see {@link #setMaxBufferedDeleteTerms}) or enough added documents since the last flush, whichever is sooner. For the added documents, flushing is triggered either by RAM usage of the documents (see {@link #setRAMBufferSizeMB}) or the number of added documents. The default is to flush when RAM usage hits 16 MB. For best indexing speed you should flush by RAM usage with a large RAM buffer. Note that flushing just moves the internal buffered state in IndexWriter into the index, but these changes are not visible to IndexReader until either {@link #commit()} or {@link #close} is called. A flush may also trigger one or more segment merges which by default run with a background thread so as not to block the addDocument calls (see below for changing the {@link MergeScheduler}).
The optional autoCommit argument to the constructors
controls visibility of the changes to {@link IndexReader}
instances reading the same index. When this is
false, changes are not visible until {@link
#close()} or {@link #commit()} is called. Note that changes will still be
flushed to the {@link org.apache.lucene.store.Directory}
as new files, but are not committed (no new
segments_N file is written referencing the
new files, nor are the files sync'd to stable storage)
until {@link #close()} or {@link #commit()} is called. If something
goes terribly wrong (for example the JVM crashes), then
the index will reflect none of the changes made since the
last commit, or the starting state if commit was not called.
You can also call {@link #rollback}, which closes the writer
without committing any changes, and removes any index
files that had been flushed but are now unreferenced.
This mode is useful for preventing readers from refreshing
at a bad time (for example after you've done all your
deletes but before you've done your adds). It can also be
used to implement simple single-writer transactional
semantics ("all or none"). You can do a two-phase commit
by calling {@link #prepareCommit()}
followed by {@link #commit()}. This is necessary when
Lucene is working with an external resource (for example,
a database) and both must either commit or rollback the
transaction.
When autoCommit is true then
the writer will periodically commit on its own. [Deprecated: Note that in 3.0, IndexWriter will
no longer accept autoCommit=true (it will be hardwired to
false). You can always call {@link #commit()} yourself
when needed]. There is
no guarantee when exactly an auto commit will occur (it
used to be after every flush, but it is now after every
completed merge, as of 2.4). If you want to force a
commit, call {@link #commit()}, or, close the writer. Once
a commit has finished, newly opened {@link IndexReader} instances will
see the changes to the index as of that commit. When
running in this mode, be careful not to refresh your
readers while optimize or segment merges are taking place
as this can tie up substantial disk space.
Regardless of autoCommit, an {@link
IndexReader} or {@link org.apache.lucene.search.IndexSearcher} will only see the
index as of the "point in time" that it was opened. Any
changes committed to the index after the reader was opened
are not visible until the reader is re-opened.
If an index will not have more documents added for a while and optimal search performance is desired, then either the full optimize method or partial {@link #optimize(int)} method should be called before the index is closed.
Opening an IndexWriter creates a lock file for the directory in use. Trying to open
another IndexWriter on the same directory will lead to a
{@link LockObtainFailedException}. The {@link LockObtainFailedException}
is also thrown if an IndexReader on the same directory is used to delete documents
from the index.
Expert: IndexWriter allows an optional
{@link IndexDeletionPolicy} implementation to be
specified. You can use this to control when prior commits
are deleted from the index. The default policy is {@link
KeepOnlyLastCommitDeletionPolicy} which removes all prior
commits as soon as a new commit is done (this matches
behavior before 2.2). Creating your own policy can allow
you to explicitly keep previous "point in time" commits
alive in the index for some time, to allow readers to
refresh to the new commit without having the old commit
deleted out from under them. This is necessary on
filesystems like NFS that do not support "delete on last
close" semantics, which Lucene's "point in time" search
normally relies on.
Expert:
IndexWriter allows you to separately change
the {@link MergePolicy} and the {@link MergeScheduler}.
The {@link MergePolicy} is invoked whenever there are
changes to the segments in the index. Its role is to
select which merges to do, if any, and return a {@link
MergePolicy.MergeSpecification} describing the merges. It
also selects merges to do for optimize(). (The default is
{@link LogByteSizeMergePolicy}. Then, the {@link
MergeScheduler} is invoked with the requested merges and
it decides when and how to run the merges. The default is
{@link ConcurrentMergeScheduler}.
Get the current setting of whether newly flushed * segments will use the compound file format. Note that * this just returns the value previously set with * setUseCompoundFile(boolean), or the default value * (true). You cannot use this to query the status of * previously flushed segments.
* *Note that this method is a convenience method: it * just calls mergePolicy.getUseCompoundFile as long as * mergePolicy is an instance of {@link LogMergePolicy}. * Otherwise an IllegalArgumentException is thrown.
* * @see #setUseCompoundFile(boolean) */ public boolean getUseCompoundFile() { return getLogMergePolicy().getUseCompoundFile(); } /**Setting to turn on usage of a compound file. When on, * multiple files for each segment are merged into a * single file when a new segment is flushed.
* *Note that this method is a convenience method: it * just calls mergePolicy.setUseCompoundFile as long as * mergePolicy is an instance of {@link LogMergePolicy}. * Otherwise an IllegalArgumentException is thrown.
*/ public void setUseCompoundFile(boolean value) { getLogMergePolicy().setUseCompoundFile(value); getLogMergePolicy().setUseCompoundDocStore(value); } /** Expert: Set the Similarity implementation used by this IndexWriter. * * @see Similarity#setDefault(Similarity) */ public void setSimilarity(Similarity similarity) { ensureOpen(); this.similarity = similarity; docWriter.setSimilarity(similarity); } /** Expert: Return the Similarity implementation used by this IndexWriter. * *This defaults to the current value of {@link Similarity#getDefault()}.
*/
public Similarity getSimilarity() {
ensureOpen();
return this.similarity;
}
/** Expert: Set the interval between indexed terms. Large values cause less
* memory to be used by IndexReader, but slow random-access to terms. Small
* values cause more memory to be used by an IndexReader, and speed
* random-access to terms.
*
* This parameter determines the amount of computation required per query
* term, regardless of the number of documents that contain that term. In
* particular, it is the maximum number of other terms that must be
* scanned before a term is located and its frequency and position information
* may be processed. In a large index with user-entered query terms, query
* processing time is likely to be dominated not by term lookup but rather
* by the processing of frequency and positional data. In a small index
* or when many uncommon query terms are generated (e.g., by wildcard
* queries) term lookup may become a dominant cost.
*
* In particular, numUniqueTerms/interval terms are read into
* memory by an IndexReader, and, on average, interval/2 terms
* must be scanned for each random term access.
*
* @see #DEFAULT_TERM_INDEX_INTERVAL
*/
public void setTermIndexInterval(int interval) {
ensureOpen();
this.termIndexInterval = interval;
}
/** Expert: Return the interval between indexed terms.
*
* @see #setTermIndexInterval(int)
*/
public int getTermIndexInterval() {
// We pass false because this method is called by SegmentMerger while we are in the process of closing
ensureOpen(false);
return termIndexInterval;
}
/**
* Constructs an IndexWriter for the index in path.
* Text will be analyzed with a. If create
* is true, then a new, empty index will be created in
* path, replacing the index already there,
* if any.
*
*
NOTE: autoCommit (see above) is set to false with this
* constructor.
*
* @param path the path to the index directory
* @param a the analyzer to use
* @param create true to create the index or overwrite
* the existing one; false to append to the existing
* index
* @param mfl Maximum field length: LIMITED, UNLIMITED, or user-specified
* via the MaxFieldLength constructor.
* @throws CorruptIndexException if the index is corrupt
* @throws LockObtainFailedException if another writer
* has this index open (write.lock could not
* be obtained)
* @throws IOException if the directory cannot be read/written to, or
* if it does not exist and create is
* false or if there is any other low-level
* IO error
*/
public IndexWriter(String path, Analyzer a, boolean create, MaxFieldLength mfl)
throws CorruptIndexException, LockObtainFailedException, IOException {
init(FSDirectory.getDirectory(path), a, create, true, null, false, mfl.getLimit());
}
/**
* Constructs an IndexWriter for the index in path.
* Text will be analyzed with a. If create
* is true, then a new, empty index will be created in
* path, replacing the index already there, if any.
*
* @param path the path to the index directory
* @param a the analyzer to use
* @param create true to create the index or overwrite
* the existing one; false to append to the existing
* index
* @throws CorruptIndexException if the index is corrupt
* @throws LockObtainFailedException if another writer
* has this index open (write.lock could not
* be obtained)
* @throws IOException if the directory cannot be read/written to, or
* if it does not exist and create is
* false or if there is any other low-level
* IO error
* @deprecated This constructor will be removed in the 3.0 release.
* Use {@link
* #IndexWriter(String,Analyzer,boolean,MaxFieldLength)}
* instead, and call {@link #commit()} when needed.
*/
public IndexWriter(String path, Analyzer a, boolean create)
throws CorruptIndexException, LockObtainFailedException, IOException {
init(FSDirectory.getDirectory(path), a, create, true, null, true, DEFAULT_MAX_FIELD_LENGTH);
}
/**
* Constructs an IndexWriter for the index in path.
* Text will be analyzed with a. If create
* is true, then a new, empty index will be created in
* path, replacing the index already there, if any.
*
*
NOTE: autoCommit (see above) is set to false with this
* constructor.
*
* @param path the path to the index directory
* @param a the analyzer to use
* @param create true to create the index or overwrite
* the existing one; false to append to the existing
* index
* @param mfl Maximum field length: LIMITED, UNLIMITED, or user-specified
* via the MaxFieldLength constructor.
* @throws CorruptIndexException if the index is corrupt
* @throws LockObtainFailedException if another writer
* has this index open (write.lock could not
* be obtained)
* @throws IOException if the directory cannot be read/written to, or
* if it does not exist and create is
* false or if there is any other low-level
* IO error
*/
public IndexWriter(File path, Analyzer a, boolean create, MaxFieldLength mfl)
throws CorruptIndexException, LockObtainFailedException, IOException {
init(FSDirectory.getDirectory(path), a, create, true, null, false, mfl.getLimit());
}
/**
* Constructs an IndexWriter for the index in path.
* Text will be analyzed with a. If create
* is true, then a new, empty index will be created in
* path, replacing the index already there, if any.
*
* @param path the path to the index directory
* @param a the analyzer to use
* @param create true to create the index or overwrite
* the existing one; false to append to the existing
* index
* @throws CorruptIndexException if the index is corrupt
* @throws LockObtainFailedException if another writer
* has this index open (write.lock could not
* be obtained)
* @throws IOException if the directory cannot be read/written to, or
* if it does not exist and create is
* false or if there is any other low-level
* IO error
* @deprecated This constructor will be removed in the 3.0 release.
* Use {@link
* #IndexWriter(File,Analyzer,boolean,MaxFieldLength)}
* instead, and call {@link #commit()} when needed.
*/
public IndexWriter(File path, Analyzer a, boolean create)
throws CorruptIndexException, LockObtainFailedException, IOException {
init(FSDirectory.getDirectory(path), a, create, true, null, true, DEFAULT_MAX_FIELD_LENGTH);
}
/**
* Constructs an IndexWriter for the index in d.
* Text will be analyzed with a. If create
* is true, then a new, empty index will be created in
* d, replacing the index already there, if any.
*
*
NOTE: autoCommit (see above) is set to false with this
* constructor.
*
* @param d the index directory
* @param a the analyzer to use
* @param create true to create the index or overwrite
* the existing one; false to append to the existing
* index
* @param mfl Maximum field length: LIMITED, UNLIMITED, or user-specified
* via the MaxFieldLength constructor.
* @throws CorruptIndexException if the index is corrupt
* @throws LockObtainFailedException if another writer
* has this index open (write.lock could not
* be obtained)
* @throws IOException if the directory cannot be read/written to, or
* if it does not exist and create is
* false or if there is any other low-level
* IO error
*/
public IndexWriter(Directory d, Analyzer a, boolean create, MaxFieldLength mfl)
throws CorruptIndexException, LockObtainFailedException, IOException {
init(d, a, create, false, null, false, mfl.getLimit());
}
/**
* Constructs an IndexWriter for the index in d.
* Text will be analyzed with a. If create
* is true, then a new, empty index will be created in
* d, replacing the index already there, if any.
*
* @param d the index directory
* @param a the analyzer to use
* @param create true to create the index or overwrite
* the existing one; false to append to the existing
* index
* @throws CorruptIndexException if the index is corrupt
* @throws LockObtainFailedException if another writer
* has this index open (write.lock could not
* be obtained)
* @throws IOException if the directory cannot be read/written to, or
* if it does not exist and create is
* false or if there is any other low-level
* IO error
* @deprecated This constructor will be removed in the 3.0
* release, and call {@link #commit()} when needed.
* Use {@link #IndexWriter(Directory,Analyzer,boolean,MaxFieldLength)} instead.
*/
public IndexWriter(Directory d, Analyzer a, boolean create)
throws CorruptIndexException, LockObtainFailedException, IOException {
init(d, a, create, false, null, true, DEFAULT_MAX_FIELD_LENGTH);
}
/**
* Constructs an IndexWriter for the index in
* path, first creating it if it does not
* already exist. Text will be analyzed with
* a.
*
*
NOTE: autoCommit (see above) is set to false with this
* constructor.
*
* @param path the path to the index directory
* @param a the analyzer to use
* @param mfl Maximum field length: LIMITED, UNLIMITED, or user-specified
* via the MaxFieldLength constructor.
* @throws CorruptIndexException if the index is corrupt
* @throws LockObtainFailedException if another writer
* has this index open (write.lock could not
* be obtained)
* @throws IOException if the directory cannot be
* read/written to or if there is any other low-level
* IO error
*/
public IndexWriter(String path, Analyzer a, MaxFieldLength mfl)
throws CorruptIndexException, LockObtainFailedException, IOException {
init(FSDirectory.getDirectory(path), a, true, null, false, mfl.getLimit());
}
/**
* Constructs an IndexWriter for the index in
* path, first creating it if it does not
* already exist. Text will be analyzed with
* a.
*
* @param path the path to the index directory
* @param a the analyzer to use
* @throws CorruptIndexException if the index is corrupt
* @throws LockObtainFailedException if another writer
* has this index open (write.lock could not
* be obtained)
* @throws IOException if the directory cannot be
* read/written to or if there is any other low-level
* IO error
* @deprecated This constructor will be removed in the 3.0
* release, and call {@link #commit()} when needed.
* Use {@link #IndexWriter(String,Analyzer,MaxFieldLength)} instead.
*/
public IndexWriter(String path, Analyzer a)
throws CorruptIndexException, LockObtainFailedException, IOException {
init(FSDirectory.getDirectory(path), a, true, null, true, DEFAULT_MAX_FIELD_LENGTH);
}
/**
* Constructs an IndexWriter for the index in
* path, first creating it if it does not
* already exist. Text will be analyzed with
* a.
*
*
NOTE: autoCommit (see above) is set to false with this
* constructor.
*
* @param path the path to the index directory
* @param a the analyzer to use
* @param mfl Maximum field length: LIMITED, UNLIMITED, or user-specified
* via the MaxFieldLength constructor.
* @throws CorruptIndexException if the index is corrupt
* @throws LockObtainFailedException if another writer
* has this index open (write.lock could not
* be obtained)
* @throws IOException if the directory cannot be
* read/written to or if there is any other low-level
* IO error
*/
public IndexWriter(File path, Analyzer a, MaxFieldLength mfl)
throws CorruptIndexException, LockObtainFailedException, IOException {
init(FSDirectory.getDirectory(path), a, true, null, false, mfl.getLimit());
}
/**
* Constructs an IndexWriter for the index in
* path, first creating it if it does not
* already exist. Text will be analyzed with
* a.
*
* @param path the path to the index directory
* @param a the analyzer to use
* @throws CorruptIndexException if the index is corrupt
* @throws LockObtainFailedException if another writer
* has this index open (write.lock could not
* be obtained)
* @throws IOException if the directory cannot be
* read/written to or if there is any other low-level
* IO error
* @deprecated This constructor will be removed in the 3.0 release.
* Use {@link #IndexWriter(File,Analyzer,MaxFieldLength)}
* instead, and call {@link #commit()} when needed.
*/
public IndexWriter(File path, Analyzer a)
throws CorruptIndexException, LockObtainFailedException, IOException {
init(FSDirectory.getDirectory(path), a, true, null, true, DEFAULT_MAX_FIELD_LENGTH);
}
/**
* Constructs an IndexWriter for the index in
* d, first creating it if it does not
* already exist. Text will be analyzed with
* a.
*
*
NOTE: autoCommit (see above) is set to false with this
* constructor.
*
* @param d the index directory
* @param a the analyzer to use
* @param mfl Maximum field length: LIMITED, UNLIMITED, or user-specified
* via the MaxFieldLength constructor.
* @throws CorruptIndexException if the index is corrupt
* @throws LockObtainFailedException if another writer
* has this index open (write.lock could not
* be obtained)
* @throws IOException if the directory cannot be
* read/written to or if there is any other low-level
* IO error
*/
public IndexWriter(Directory d, Analyzer a, MaxFieldLength mfl)
throws CorruptIndexException, LockObtainFailedException, IOException {
init(d, a, false, null, false, mfl.getLimit());
}
/**
* Constructs an IndexWriter for the index in
* d, first creating it if it does not
* already exist. Text will be analyzed with
* a.
*
* @param d the index directory
* @param a the analyzer to use
* @throws CorruptIndexException if the index is corrupt
* @throws LockObtainFailedException if another writer
* has this index open (write.lock could not
* be obtained)
* @throws IOException if the directory cannot be
* read/written to or if there is any other low-level
* IO error
* @deprecated This constructor will be removed in the 3.0 release.
* Use {@link
* #IndexWriter(Directory,Analyzer,MaxFieldLength)}
* instead, and call {@link #commit()} when needed.
*/
public IndexWriter(Directory d, Analyzer a)
throws CorruptIndexException, LockObtainFailedException, IOException {
init(d, a, false, null, true, DEFAULT_MAX_FIELD_LENGTH);
}
/**
* Constructs an IndexWriter for the index in
* d, first creating it if it does not
* already exist. Text will be analyzed with
* a.
*
* @param d the index directory
* @param autoCommit see above
* @param a the analyzer to use
* @throws CorruptIndexException if the index is corrupt
* @throws LockObtainFailedException if another writer
* has this index open (write.lock could not
* be obtained)
* @throws IOException if the directory cannot be
* read/written to or if there is any other low-level
* IO error
* @deprecated This constructor will be removed in the 3.0 release.
* Use {@link
* #IndexWriter(Directory,Analyzer,MaxFieldLength)}
* instead, and call {@link #commit()} when needed.
*/
public IndexWriter(Directory d, boolean autoCommit, Analyzer a)
throws CorruptIndexException, LockObtainFailedException, IOException {
init(d, a, false, null, autoCommit, DEFAULT_MAX_FIELD_LENGTH);
}
/**
* Constructs an IndexWriter for the index in d.
* Text will be analyzed with a. If create
* is true, then a new, empty index will be created in
* d, replacing the index already there, if any.
*
* @param d the index directory
* @param autoCommit see above
* @param a the analyzer to use
* @param create true to create the index or overwrite
* the existing one; false to append to the existing
* index
* @throws CorruptIndexException if the index is corrupt
* @throws LockObtainFailedException if another writer
* has this index open (write.lock could not
* be obtained)
* @throws IOException if the directory cannot be read/written to, or
* if it does not exist and create is
* false or if there is any other low-level
* IO error
* @deprecated This constructor will be removed in the 3.0 release.
* Use {@link
* #IndexWriter(Directory,Analyzer,boolean,MaxFieldLength)}
* instead, and call {@link #commit()} when needed.
*/
public IndexWriter(Directory d, boolean autoCommit, Analyzer a, boolean create)
throws CorruptIndexException, LockObtainFailedException, IOException {
init(d, a, create, false, null, autoCommit, DEFAULT_MAX_FIELD_LENGTH);
}
/**
* Expert: constructs an IndexWriter with a custom {@link
* IndexDeletionPolicy}, for the index in d,
* first creating it if it does not already exist. Text
* will be analyzed with a.
*
*
NOTE: autoCommit (see above) is set to false with this
* constructor.
*
* @param d the index directory
* @param a the analyzer to use
* @param deletionPolicy see above
* @param mfl whether or not to limit field lengths
* @throws CorruptIndexException if the index is corrupt
* @throws LockObtainFailedException if another writer
* has this index open (write.lock could not
* be obtained)
* @throws IOException if the directory cannot be
* read/written to or if there is any other low-level
* IO error
*/
public IndexWriter(Directory d, Analyzer a, IndexDeletionPolicy deletionPolicy, MaxFieldLength mfl)
throws CorruptIndexException, LockObtainFailedException, IOException {
init(d, a, false, deletionPolicy, false, mfl.getLimit());
}
/**
* Expert: constructs an IndexWriter with a custom {@link
* IndexDeletionPolicy}, for the index in d,
* first creating it if it does not already exist. Text
* will be analyzed with a.
*
* @param d the index directory
* @param autoCommit see above
* @param a the analyzer to use
* @param deletionPolicy see above
* @throws CorruptIndexException if the index is corrupt
* @throws LockObtainFailedException if another writer
* has this index open (write.lock could not
* be obtained)
* @throws IOException if the directory cannot be
* read/written to or if there is any other low-level
* IO error
* @deprecated This constructor will be removed in the 3.0 release.
* Use {@link
* #IndexWriter(Directory,Analyzer,IndexDeletionPolicy,MaxFieldLength)}
* instead, and call {@link #commit()} when needed.
*/
public IndexWriter(Directory d, boolean autoCommit, Analyzer a, IndexDeletionPolicy deletionPolicy)
throws CorruptIndexException, LockObtainFailedException, IOException {
init(d, a, false, deletionPolicy, autoCommit, DEFAULT_MAX_FIELD_LENGTH);
}
/**
* Expert: constructs an IndexWriter with a custom {@link
* IndexDeletionPolicy}, for the index in d.
* Text will be analyzed with a. If
* create is true, then a new, empty index
* will be created in d, replacing the index
* already there, if any.
*
*
NOTE: autoCommit (see above) is set to false with this
* constructor.
*
* @param d the index directory
* @param a the analyzer to use
* @param create true to create the index or overwrite
* the existing one; false to append to the existing
* index
* @param deletionPolicy see above
* @param mfl whether or not to limit field lengths
* @throws CorruptIndexException if the index is corrupt
* @throws LockObtainFailedException if another writer
* has this index open (write.lock could not
* be obtained)
* @throws IOException if the directory cannot be read/written to, or
* if it does not exist and create is
* false or if there is any other low-level
* IO error
*/
public IndexWriter(Directory d, Analyzer a, boolean create, IndexDeletionPolicy deletionPolicy, MaxFieldLength mfl)
throws CorruptIndexException, LockObtainFailedException, IOException {
init(d, a, create, false, deletionPolicy, false, mfl.getLimit());
}
/**
* Expert: constructs an IndexWriter with a custom {@link
* IndexDeletionPolicy} and {@link IndexingChain},
* for the index in d.
* Text will be analyzed with a. If
* create is true, then a new, empty index
* will be created in d, replacing the index
* already there, if any.
*
*
NOTE: autoCommit (see above) is set to false with this
* constructor.
*
* @param d the index directory
* @param a the analyzer to use
* @param create true to create the index or overwrite
* the existing one; false to append to the existing
* index
* @param deletionPolicy see above
* @param indexingChain the {@link DocConsumer} chain to be used to
* process documents
* @param mfl whether or not to limit field lengths
* @throws CorruptIndexException if the index is corrupt
* @throws LockObtainFailedException if another writer
* has this index open (write.lock could not
* be obtained)
* @throws IOException if the directory cannot be read/written to, or
* if it does not exist and create is
* false or if there is any other low-level
* IO error
*/
IndexWriter(Directory d, Analyzer a, boolean create, IndexDeletionPolicy deletionPolicy, MaxFieldLength mfl, IndexingChain indexingChain)
throws CorruptIndexException, LockObtainFailedException, IOException {
init(d, a, create, false, deletionPolicy, false, mfl.getLimit(), indexingChain);
}
/**
* Expert: constructs an IndexWriter with a custom {@link
* IndexDeletionPolicy}, for the index in d.
* Text will be analyzed with a. If
* create is true, then a new, empty index
* will be created in d, replacing the index
* already there, if any.
*
* @param d the index directory
* @param autoCommit see above
* @param a the analyzer to use
* @param create true to create the index or overwrite
* the existing one; false to append to the existing
* index
* @param deletionPolicy see above
* @throws CorruptIndexException if the index is corrupt
* @throws LockObtainFailedException if another writer
* has this index open (write.lock could not
* be obtained)
* @throws IOException if the directory cannot be read/written to, or
* if it does not exist and create is
* false or if there is any other low-level
* IO error
* @deprecated This constructor will be removed in the 3.0 release.
* Use {@link
* #IndexWriter(Directory,Analyzer,boolean,IndexDeletionPolicy,MaxFieldLength)}
* instead, and call {@link #commit()} when needed.
*/
public IndexWriter(Directory d, boolean autoCommit, Analyzer a, boolean create, IndexDeletionPolicy deletionPolicy)
throws CorruptIndexException, LockObtainFailedException, IOException {
init(d, a, create, false, deletionPolicy, autoCommit, DEFAULT_MAX_FIELD_LENGTH);
}
private void init(Directory d, Analyzer a, boolean closeDir, IndexDeletionPolicy deletionPolicy,
boolean autoCommit, int maxFieldLength)
throws CorruptIndexException, LockObtainFailedException, IOException {
init(d, a, closeDir, deletionPolicy, autoCommit, maxFieldLength, DocumentsWriter.DefaultIndexingChain);
}
private void init(Directory d, Analyzer a, boolean closeDir, IndexDeletionPolicy deletionPolicy,
boolean autoCommit, int maxFieldLength, IndexingChain indexingChain)
throws CorruptIndexException, LockObtainFailedException, IOException {
if (IndexReader.indexExists(d)) {
init(d, a, false, closeDir, deletionPolicy, autoCommit, maxFieldLength, indexingChain);
} else {
init(d, a, true, closeDir, deletionPolicy, autoCommit, maxFieldLength, indexingChain);
}
}
private void init(Directory d, Analyzer a, final boolean create, boolean closeDir,
IndexDeletionPolicy deletionPolicy, boolean autoCommit, int maxFieldLength)
throws CorruptIndexException, LockObtainFailedException, IOException {
init(d, a, create, closeDir, deletionPolicy, autoCommit, maxFieldLength, DocumentsWriter.DefaultIndexingChain);
}
private void init(Directory d, Analyzer a, final boolean create, boolean closeDir,
IndexDeletionPolicy deletionPolicy, boolean autoCommit, int maxFieldLength,
IndexingChain indexingChain)
throws CorruptIndexException, LockObtainFailedException, IOException {
this.closeDir = closeDir;
directory = d;
analyzer = a;
setMessageID(defaultInfoStream);
this.maxFieldLength = maxFieldLength;
if (create) {
// Clear the write lock in case it's leftover:
directory.clearLock(WRITE_LOCK_NAME);
}
Lock writeLock = directory.makeLock(WRITE_LOCK_NAME);
if (!writeLock.obtain(writeLockTimeout)) // obtain write lock
throw new LockObtainFailedException("Index locked for write: " + writeLock);
this.writeLock = writeLock; // save it
try {
if (create) {
// Try to read first. This is to allow create
// against an index that's currently open for
// searching. In this case we write the next
// segments_N file with no segments:
try {
segmentInfos.read(directory);
segmentInfos.clear();
} catch (IOException e) {
// Likely this means it's a fresh directory
}
segmentInfos.commit(directory);
} else {
segmentInfos.read(directory);
// We assume that this segments_N was previously
// properly sync'd:
for(int i=0;i
The default value is {@link Integer#MAX_VALUE}.
* *Note that this method is a convenience method: it * just calls mergePolicy.setMaxMergeDocs as long as * mergePolicy is an instance of {@link LogMergePolicy}. * Otherwise an IllegalArgumentException is thrown.
* *The default merge policy ({@link * LogByteSizeMergePolicy}) also allows you to set this * limit by net size (in MB) of the segment, using {@link * LogByteSizeMergePolicy#setMaxMergeMB}.
*/ public void setMaxMergeDocs(int maxMergeDocs) { getLogMergePolicy().setMaxMergeDocs(maxMergeDocs); } /** *Returns the largest segment (measured by document * count) that may be merged with other segments.
* *Note that this method is a convenience method: it * just calls mergePolicy.getMaxMergeDocs as long as * mergePolicy is an instance of {@link LogMergePolicy}. * Otherwise an IllegalArgumentException is thrown.
* * @see #setMaxMergeDocs */ public int getMaxMergeDocs() { return getLogMergePolicy().getMaxMergeDocs(); } /** * The maximum number of terms that will be indexed for a single field in a * document. This limits the amount of memory required for indexing, so that * collections with very large files will not crash the indexing process by * running out of memory. This setting refers to the number of running terms, * not to the number of different terms. * Note: this silently truncates large documents, excluding from the * index all terms that occur further in the document. If you know your source * documents are large, be sure to set this value high enough to accomodate * the expected size. If you set it to Integer.MAX_VALUE, then the only limit * is your memory, but you should anticipate an OutOfMemoryError. * By default, no more than {@link #DEFAULT_MAX_FIELD_LENGTH} terms * will be indexed for a field. */ public void setMaxFieldLength(int maxFieldLength) { ensureOpen(); this.maxFieldLength = maxFieldLength; docWriter.setMaxFieldLength(maxFieldLength); if (infoStream != null) message("setMaxFieldLength " + maxFieldLength); } /** * Returns the maximum number of terms that will be * indexed for a single field in a document. * @see #setMaxFieldLength */ public int getMaxFieldLength() { ensureOpen(); return maxFieldLength; } /** Determines the minimal number of documents required * before the buffered in-memory documents are flushed as * a new Segment. Large values generally gives faster * indexing. * *When this is set, the writer will flush every * maxBufferedDocs added documents. Pass in {@link * #DISABLE_AUTO_FLUSH} to prevent triggering a flush due * to number of buffered documents. Note that if flushing * by RAM usage is also enabled, then the flush will be * triggered by whichever comes first.
* *Disabled by default (writer flushes by RAM usage).
* * @throws IllegalArgumentException if maxBufferedDocs is * enabled but smaller than 2, or it disables maxBufferedDocs * when ramBufferSize is already disabled * @see #setRAMBufferSizeMB */ public void setMaxBufferedDocs(int maxBufferedDocs) { ensureOpen(); if (maxBufferedDocs != DISABLE_AUTO_FLUSH && maxBufferedDocs < 2) throw new IllegalArgumentException( "maxBufferedDocs must at least be 2 when enabled"); if (maxBufferedDocs == DISABLE_AUTO_FLUSH && getRAMBufferSizeMB() == DISABLE_AUTO_FLUSH) throw new IllegalArgumentException( "at least one of ramBufferSize and maxBufferedDocs must be enabled"); docWriter.setMaxBufferedDocs(maxBufferedDocs); pushMaxBufferedDocs(); if (infoStream != null) message("setMaxBufferedDocs " + maxBufferedDocs); } /** * If we are flushing by doc count (not by RAM usage), and * using LogDocMergePolicy then push maxBufferedDocs down * as its minMergeDocs, to keep backwards compatibility. */ private void pushMaxBufferedDocs() { if (docWriter.getMaxBufferedDocs() != DISABLE_AUTO_FLUSH) { final MergePolicy mp = mergePolicy; if (mp instanceof LogDocMergePolicy) { LogDocMergePolicy lmp = (LogDocMergePolicy) mp; final int maxBufferedDocs = docWriter.getMaxBufferedDocs(); if (lmp.getMinMergeDocs() != maxBufferedDocs) { if (infoStream != null) message("now push maxBufferedDocs " + maxBufferedDocs + " to LogDocMergePolicy"); lmp.setMinMergeDocs(maxBufferedDocs); } } } } /** * Returns the number of buffered added documents that will * trigger a flush if enabled. * @see #setMaxBufferedDocs */ public int getMaxBufferedDocs() { ensureOpen(); return docWriter.getMaxBufferedDocs(); } /** Determines the amount of RAM that may be used for * buffering added documents before they are flushed as a * new Segment. Generally for faster indexing performance * it's best to flush by RAM usage instead of document * count and use as large a RAM buffer as you can. * *When this is set, the writer will flush whenever * buffered documents use this much RAM. Pass in {@link * #DISABLE_AUTO_FLUSH} to prevent triggering a flush due * to RAM usage. Note that if flushing by document count * is also enabled, then the flush will be triggered by * whichever comes first.
* *The default value is {@link #DEFAULT_RAM_BUFFER_SIZE_MB}.
* * @throws IllegalArgumentException if ramBufferSize is * enabled but non-positive, or it disables ramBufferSize * when maxBufferedDocs is already disabled */ public void setRAMBufferSizeMB(double mb) { if (mb != DISABLE_AUTO_FLUSH && mb <= 0.0) throw new IllegalArgumentException( "ramBufferSize should be > 0.0 MB when enabled"); if (mb == DISABLE_AUTO_FLUSH && getMaxBufferedDocs() == DISABLE_AUTO_FLUSH) throw new IllegalArgumentException( "at least one of ramBufferSize and maxBufferedDocs must be enabled"); docWriter.setRAMBufferSizeMB(mb); if (infoStream != null) message("setRAMBufferSizeMB " + mb); } /** * Returns the value set by {@link #setRAMBufferSizeMB} if enabled. */ public double getRAMBufferSizeMB() { return docWriter.getRAMBufferSizeMB(); } /** *Determines the minimal number of delete terms required before the buffered * in-memory delete terms are applied and flushed. If there are documents * buffered in memory at the time, they are merged and a new segment is * created.
*Disabled by default (writer flushes by RAM usage).
* * @throws IllegalArgumentException if maxBufferedDeleteTerms * is enabled but smaller than 1 * @see #setRAMBufferSizeMB */ public void setMaxBufferedDeleteTerms(int maxBufferedDeleteTerms) { ensureOpen(); if (maxBufferedDeleteTerms != DISABLE_AUTO_FLUSH && maxBufferedDeleteTerms < 1) throw new IllegalArgumentException( "maxBufferedDeleteTerms must at least be 1 when enabled"); docWriter.setMaxBufferedDeleteTerms(maxBufferedDeleteTerms); if (infoStream != null) message("setMaxBufferedDeleteTerms " + maxBufferedDeleteTerms); } /** * Returns the number of buffered deleted terms that will * trigger a flush if enabled. * @see #setMaxBufferedDeleteTerms */ public int getMaxBufferedDeleteTerms() { ensureOpen(); return docWriter.getMaxBufferedDeleteTerms(); } /** Determines how often segment indices are merged by addDocument(). With * smaller values, less RAM is used while indexing, and searches on * unoptimized indices are faster, but indexing speed is slower. With larger * values, more RAM is used during indexing, and while searches on unoptimized * indices are slower, indexing is faster. Thus larger values (> 10) are best * for batch index creation, and smaller values (< 10) for indices that are * interactively maintained. * *Note that this method is a convenience method: it * just calls mergePolicy.setMergeFactor as long as * mergePolicy is an instance of {@link LogMergePolicy}. * Otherwise an IllegalArgumentException is thrown.
* *This must never be less than 2. The default value is 10. */ public void setMergeFactor(int mergeFactor) { getLogMergePolicy().setMergeFactor(mergeFactor); } /** *
Returns the number of segments that are merged at * once and also controls the total number of segments * allowed to accumulate in the index.
* *Note that this method is a convenience method: it * just calls mergePolicy.getMergeFactor as long as * mergePolicy is an instance of {@link LogMergePolicy}. * Otherwise an IllegalArgumentException is thrown.
* * @see #setMergeFactor */ public int getMergeFactor() { return getLogMergePolicy().getMergeFactor(); } /** * Expert: returns max delay inserted before syncing a * commit point. On Windows, at least, pausing before * syncing can increase net indexing throughput. The * delay is variable based on size of the segment's files, * and is only inserted when using * ConcurrentMergeScheduler for merges. * @deprecated This will be removed in 3.0, when * autoCommit=true is removed from IndexWriter. */ public double getMaxSyncPauseSeconds() { return maxSyncPauseSeconds; } /** * Expert: sets the max delay before syncing a commit * point. * @see #getMaxSyncPauseSeconds * @deprecated This will be removed in 3.0, when * autoCommit=true is removed from IndexWriter. */ public void setMaxSyncPauseSeconds(double seconds) { maxSyncPauseSeconds = seconds; } /** If non-null, this will be the default infoStream used * by a newly instantiated IndexWriter. * @see #setInfoStream */ public static void setDefaultInfoStream(PrintStream infoStream) { IndexWriter.defaultInfoStream = infoStream; } /** * Returns the current default infoStream for newly * instantiated IndexWriters. * @see #setDefaultInfoStream */ public static PrintStream getDefaultInfoStream() { return IndexWriter.defaultInfoStream; } /** If non-null, information about merges, deletes and a * message when maxFieldLength is reached will be printed * to this. */ public void setInfoStream(PrintStream infoStream) { ensureOpen(); setMessageID(infoStream); docWriter.setInfoStream(infoStream); deleter.setInfoStream(infoStream); if (infoStream != null) messageState(); } private void messageState() { message("setInfoStream: dir=" + directory + " autoCommit=" + autoCommit + " mergePolicy=" + mergePolicy + " mergeScheduler=" + mergeScheduler + " ramBufferSizeMB=" + docWriter.getRAMBufferSizeMB() + " maxBufferedDocs=" + docWriter.getMaxBufferedDocs() + " maxBuffereDeleteTerms=" + docWriter.getMaxBufferedDeleteTerms() + " maxFieldLength=" + maxFieldLength + " index=" + segString()); } /** * Returns the current infoStream in use by this writer. * @see #setInfoStream */ public PrintStream getInfoStream() { ensureOpen(); return infoStream; } /** * Sets the maximum time to wait for a write lock (in milliseconds) for this instance of IndexWriter. @see * @see #setDefaultWriteLockTimeout to change the default value for all instances of IndexWriter. */ public void setWriteLockTimeout(long writeLockTimeout) { ensureOpen(); this.writeLockTimeout = writeLockTimeout; } /** * Returns allowed timeout when acquiring the write lock. * @see #setWriteLockTimeout */ public long getWriteLockTimeout() { ensureOpen(); return writeLockTimeout; } /** * Sets the default (for any instance of IndexWriter) maximum time to wait for a write lock (in * milliseconds). */ public static void setDefaultWriteLockTimeout(long writeLockTimeout) { IndexWriter.WRITE_LOCK_TIMEOUT = writeLockTimeout; } /** * Returns default write lock timeout for newly * instantiated IndexWriters. * @see #setDefaultWriteLockTimeout */ public static long getDefaultWriteLockTimeout() { return IndexWriter.WRITE_LOCK_TIMEOUT; } /** * Commits all changes to an index and closes all * associated files. Note that this may be a costly * operation, so, try to re-use a single writer instead of * closing and opening a new one. See {@link #commit()} for * caveats about write caching done by some IO devices. * *If an Exception is hit during close, eg due to disk * full or some other reason, then both the on-disk index * and the internal state of the IndexWriter instance will * be consistent. However, the close will not be complete * even though part of it (flushing buffered documents) * may have succeeded, so the write lock will still be * held.
* *If you can correct the underlying cause (eg free up * some disk space) then you can call close() again. * Failing that, if you want to force the write lock to be * released (dangerous, because you may then lose buffered * docs in the IndexWriter instance) then you can do * something like this:
* *
* try {
* writer.close();
* } finally {
* if (IndexWriter.isLocked(directory)) {
* IndexWriter.unlock(directory);
* }
* }
*
*
* after which, you must be certain not to use the writer
* instance anymore.
* @throws CorruptIndexException if the index is corrupt
* @throws IOException if there is a low-level IO error
*/
public void close() throws CorruptIndexException, IOException {
close(true);
}
/**
* Closes the index with or without waiting for currently
* running merges to finish. This is only meaningful when
* using a MergeScheduler that runs merges in background
* threads.
* @param waitForMerges if true, this call will block
* until all merges complete; else, it will ask all
* running merges to abort, wait until those merges have
* finished (which should be at most a few seconds), and
* then return.
*/
public void close(boolean waitForMerges) throws CorruptIndexException, IOException {
// If any methods have hit OutOfMemoryError, then abort
// on close, in case the internal state of IndexWriter
// or DocumentsWriter is corrupt
if (hitOOM) {
rollback();
return;
}
// Ensure that only one thread actually gets to do the closing:
if (shouldClose())
closeInternal(waitForMerges);
}
// Returns true if this thread should attempt to close, or
// false if IndexWriter is now closed; else, waits until
// another thread finishes closing
synchronized private boolean shouldClose() {
while(true) {
if (!closed) {
if (!closing) {
closing = true;
return true;
} else {
// Another thread is presently trying to close;
// wait until it finishes one way (closes
// successfully) or another (fails to close)
doWait();
}
} else
return false;
}
}
private void closeInternal(boolean waitForMerges) throws CorruptIndexException, IOException {
docWriter.pauseAllThreads();
try {
if (infoStream != null)
message("now flush at close");
docWriter.close();
// Only allow a new merge to be triggered if we are
// going to wait for merges:
flush(waitForMerges, true, true);
if (waitForMerges)
// Give merge scheduler last chance to run, in case
// any pending merges are waiting:
mergeScheduler.merge(this);
mergePolicy.close();
finishMerges(waitForMerges);
mergeScheduler.close();
if (infoStream != null)
message("now call final commit()");
commit(0);
if (infoStream != null)
message("at close: " + segString());
synchronized(this) {
docWriter = null;
deleter.close();
}
if (closeDir)
directory.close();
if (writeLock != null) {
writeLock.release(); // release write lock
writeLock = null;
}
synchronized(this) {
closed = true;
}
} catch (OutOfMemoryError oom) {
hitOOM = true;
throw oom;
} finally {
synchronized(this) {
closing = false;
notifyAll();
if (!closed) {
if (docWriter != null)
docWriter.resumeAllThreads();
if (infoStream != null)
message("hit exception while closing");
}
}
}
}
/** Tells the docWriter to close its currently open shared
* doc stores (stored fields & vectors files).
* Return value specifices whether new doc store files are compound or not.
*/
private synchronized boolean flushDocStores() throws IOException {
boolean useCompoundDocStore = false;
String docStoreSegment;
boolean success = false;
try {
docStoreSegment = docWriter.closeDocStore();
success = true;
} finally {
if (!success) {
if (infoStream != null)
message("hit exception closing doc store segment");
}
}
useCompoundDocStore = mergePolicy.useCompoundDocStore(segmentInfos);
if (useCompoundDocStore && docStoreSegment != null && docWriter.closedFiles().size() != 0) {
// Now build compound doc store file
success = false;
final int numSegments = segmentInfos.size();
final String compoundFileName = docStoreSegment + "." + IndexFileNames.COMPOUND_FILE_STORE_EXTENSION;
try {
CompoundFileWriter cfsWriter = new CompoundFileWriter(directory, compoundFileName);
final Iterator it = docWriter.closedFiles().iterator();
while(it.hasNext())
cfsWriter.addFile((String) it.next());
// Perform the merge
cfsWriter.close();
success = true;
} finally {
if (!success) {
if (infoStream != null)
message("hit exception building compound file doc store for segment " + docStoreSegment);
deleter.deleteFile(compoundFileName);
}
}
for(int i=0;iNote that if an Exception is hit (for example disk full) * then the index will be consistent, but this document * may not have been added. Furthermore, it's possible * the index will have one segment in non-compound format * even when using compound files (when a merge has * partially succeeded).
* *This method periodically flushes pending documents * to the Directory (see above), and * also periodically triggers segment merges in the index * according to the {@link MergePolicy} in use.
* *Merges temporarily consume space in the * directory. The amount of space required is up to 1X the * size of all segments being merged, when no * readers/searchers are open against the index, and up to * 2X the size of all segments being merged when * readers/searchers are open against the index (see * {@link #optimize()} for details). The sequence of * primitive merge operations performed is governed by the * merge policy. * *
Note that each term in the document can be no longer * than 16383 characters, otherwise an * IllegalArgumentException will be thrown.
* *Note that it's possible to create an invalid Unicode * string in java if a UTF16 surrogate pair is malformed. * In this case, the invalid characters are silently * replaced with the Unicode replacement character * U+FFFD.
* * @throws CorruptIndexException if the index is corrupt * @throws IOException if there is a low-level IO error */ public void addDocument(Document doc) throws CorruptIndexException, IOException { addDocument(doc, analyzer); } /** * Adds a document to this index, using the provided analyzer instead of the * value of {@link #getAnalyzer()}. If the document contains more than * {@link #setMaxFieldLength(int)} terms for a given field, the remainder are * discarded. * *See {@link #addDocument(Document)} for details on * index and IndexWriter state after an Exception, and * flushing/merging temporary free space requirements.
* * @throws CorruptIndexException if the index is corrupt * @throws IOException if there is a low-level IO error */ public void addDocument(Document doc, Analyzer analyzer) throws CorruptIndexException, IOException { ensureOpen(); boolean doFlush = false; boolean success = false; try { try { doFlush = docWriter.addDocument(doc, analyzer); success = true; } finally { if (!success) { if (infoStream != null) message("hit exception adding document"); synchronized (this) { // If docWriter has some aborted files that were // never incref'd, then we clean them up here if (docWriter != null) { final Collection files = docWriter.abortedFiles(); if (files != null) deleter.deleteNewFiles(files); } } } } if (doFlush) flush(true, false, false); } catch (OutOfMemoryError oom) { hitOOM = true; throw oom; } } /** * Deletes the document(s) containingterm.
* @param term the term to identify the documents to be deleted
* @throws CorruptIndexException if the index is corrupt
* @throws IOException if there is a low-level IO error
*/
public void deleteDocuments(Term term) throws CorruptIndexException, IOException {
ensureOpen();
try {
boolean doFlush = docWriter.bufferDeleteTerm(term);
if (doFlush)
flush(true, false, false);
} catch (OutOfMemoryError oom) {
hitOOM = true;
throw oom;
}
}
/**
* Deletes the document(s) containing any of the
* terms. All deletes are flushed at the same time.
* @param terms array of terms to identify the documents
* to be deleted
* @throws CorruptIndexException if the index is corrupt
* @throws IOException if there is a low-level IO error
*/
public void deleteDocuments(Term[] terms) throws CorruptIndexException, IOException {
ensureOpen();
try {
boolean doFlush = docWriter.bufferDeleteTerms(terms);
if (doFlush)
flush(true, false, false);
} catch (OutOfMemoryError oom) {
hitOOM = true;
throw oom;
}
}
/**
* Deletes the document(s) matching the provided query.
* @param query the query to identify the documents to be deleted
* @throws CorruptIndexException if the index is corrupt
* @throws IOException if there is a low-level IO error
*/
public void deleteDocuments(Query query) throws CorruptIndexException, IOException {
ensureOpen();
boolean doFlush = docWriter.bufferDeleteQuery(query);
if (doFlush)
flush(true, false, false);
}
/**
* Deletes the document(s) matching any of the provided queries.
* All deletes are flushed at the same time.
* @param queries array of queries to identify the documents
* to be deleted
* @throws CorruptIndexException if the index is corrupt
* @throws IOException if there is a low-level IO error
*/
public void deleteDocuments(Query[] queries) throws CorruptIndexException, IOException {
ensureOpen();
boolean doFlush = docWriter.bufferDeleteQueries(queries);
if (doFlush)
flush(true, false, false);
}
/**
* Updates a document by first deleting the document(s)
* containing term and then adding the new
* document. The delete and then add are atomic as seen
* by a reader on the same index (flush may happen only after
* the add).
* @param term the term to identify the document(s) to be
* deleted
* @param doc the document to be added
* @throws CorruptIndexException if the index is corrupt
* @throws IOException if there is a low-level IO error
*/
public void updateDocument(Term term, Document doc) throws CorruptIndexException, IOException {
ensureOpen();
updateDocument(term, doc, getAnalyzer());
}
/**
* Updates a document by first deleting the document(s)
* containing term and then adding the new
* document. The delete and then add are atomic as seen
* by a reader on the same index (flush may happen only after
* the add).
* @param term the term to identify the document(s) to be
* deleted
* @param doc the document to be added
* @param analyzer the analyzer to use when analyzing the document
* @throws CorruptIndexException if the index is corrupt
* @throws IOException if there is a low-level IO error
*/
public void updateDocument(Term term, Document doc, Analyzer analyzer)
throws CorruptIndexException, IOException {
ensureOpen();
try {
boolean doFlush = false;
boolean success = false;
try {
doFlush = docWriter.updateDocument(term, doc, analyzer);
success = true;
} finally {
if (!success) {
if (infoStream != null)
message("hit exception updating document");
synchronized (this) {
// If docWriter has some aborted files that were
// never incref'd, then we clean them up here
final Collection files = docWriter.abortedFiles();
if (files != null)
deleter.deleteNewFiles(files);
}
}
}
if (doFlush)
flush(true, false, false);
} catch (OutOfMemoryError oom) {
hitOOM = true;
throw oom;
}
}
// for test purpose
final synchronized int getSegmentCount(){
return segmentInfos.size();
}
// for test purpose
final synchronized int getNumBufferedDocuments(){
return docWriter.getNumDocsInRAM();
}
// for test purpose
final synchronized int getDocCount(int i) {
if (i >= 0 && i < segmentInfos.size()) {
return segmentInfos.info(i).docCount;
} else {
return -1;
}
}
// for test purpose
final synchronized int getFlushCount() {
return flushCount;
}
// for test purpose
final synchronized int getFlushDeletesCount() {
return flushDeletesCount;
}
final String newSegmentName() {
// Cannot synchronize on IndexWriter because that causes
// deadlock
synchronized(segmentInfos) {
// Important to increment changeCount so that the
// segmentInfos is written on close. Otherwise we
// could close, re-open and re-return the same segment
// name that was previously returned which can cause
// problems at least with ConcurrentMergeScheduler.
changeCount++;
return "_" + Integer.toString(segmentInfos.counter++, Character.MAX_RADIX);
}
}
/** If non-null, information about merges will be printed to this.
*/
private PrintStream infoStream = null;
private static PrintStream defaultInfoStream = null;
/**
* Requests an "optimize" operation on an index, priming the index
* for the fastest available search. Traditionally this has meant
* merging all segments into a single segment as is done in the
* default merge policy, but individaul merge policies may implement
* optimize in different ways.
*
* @see LogMergePolicy#findMergesForOptimize
*
* It is recommended that this method be called upon completion of indexing. In * environments with frequent updates, optimize is best done during low volume times, if at all. * *
*See http://www.gossamer-threads.com/lists/lucene/java-dev/47895 for more discussion.
* *Note that this can require substantial temporary free * space in the Directory (see LUCENE-764 * for details):
* *If no readers/searchers are open against the index, * then free space required is up to 1X the total size of * the starting index. For example, if the starting * index is 10 GB, then you must have up to 10 GB of free * space before calling optimize.
* *If readers/searchers are using the index, then free * space required is up to 2X the size of the starting * index. This is because in addition to the 1X used by * optimize, the original 1X of the starting index is * still consuming space in the Directory as the readers * are holding the segments files open. Even on Unix, * where it will appear as if the files are gone ("ls" * won't list them), they still consume storage due to * "delete on last close" semantics.
* *Furthermore, if some but not all readers re-open * while the optimize is underway, this will cause > 2X * temporary space to be consumed as those new readers * will then hold open the partially optimized segments at * that time. It is best not to re-open readers while * optimize is running.
* *The actual temporary usage could be much less than * these figures (it depends on many factors).
* *In general, once the optimize completes, the total size of the * index will be less than the size of the starting index. * It could be quite a bit smaller (if there were many * pending deletes) or just slightly smaller.
* *If an Exception is hit during optimize(), for example * due to disk full, the index will not be corrupt and no * documents will have been lost. However, it may have * been partially optimized (some segments were merged but * not all), and it's possible that one of the segments in * the index will be in non-compound format even when * using compound file format. This will occur when the * Exception is hit during conversion of the segment into * compound format.
* *This call will optimize those segments present in * the index when the call started. If other threads are * still adding documents and flushing segments, those * newly created segments will not be optimized unless you * call optimize again.
* * @throws CorruptIndexException if the index is corrupt * @throws IOException if there is a low-level IO error */ public void optimize() throws CorruptIndexException, IOException { optimize(true); } /** * Optimize the index down to <= maxNumSegments. If * maxNumSegments==1 then this is the same as {@link * #optimize()}. * @param maxNumSegments maximum number of segments left * in the index after optimization finishes */ public void optimize(int maxNumSegments) throws CorruptIndexException, IOException { optimize(maxNumSegments, true); } /** Just like {@link #optimize()}, except you can specify * whether the call should block until the optimize * completes. This is only meaningful with a * {@link MergeScheduler} that is able to run merges in * background threads. */ public void optimize(boolean doWait) throws CorruptIndexException, IOException { optimize(1, doWait); } /** Just like {@link #optimize(int)}, except you can * specify whether the call should block until the * optimize completes. This is only meaningful with a * {@link MergeScheduler} that is able to run merges in * background threads. */ public void optimize(int maxNumSegments, boolean doWait) throws CorruptIndexException, IOException { ensureOpen(); if (maxNumSegments < 1) throw new IllegalArgumentException("maxNumSegments must be >= 1; got " + maxNumSegments); if (infoStream != null) message("optimize: index now " + segString()); flush(true, false, true); synchronized(this) { resetMergeExceptions(); segmentsToOptimize = new HashSet(); final int numSegments = segmentInfos.size(); for(int i=0;iautoCommit=false. This also clears a
* previous call to {@link #prepareCommit}.
* @throws IllegalStateException if this is called when
* the writer was opened with autoCommit=true.
* @throws IOException if there is a low-level IO error
*/
public void rollback() throws IOException {
ensureOpen();
if (autoCommit)
throw new IllegalStateException("rollback() can only be called when IndexWriter was opened with autoCommit=false");
// Ensure that only one thread actually gets to do the closing:
if (shouldClose())
rollbackInternal();
}
private void rollbackInternal() throws IOException {
boolean success = false;
docWriter.pauseAllThreads();
try {
finishMerges(false);
// Must pre-close these two, in case they increment
// changeCount so that we can then set it to false
// before calling closeInternal
mergePolicy.close();
mergeScheduler.close();
synchronized(this) {
if (pendingCommit != null) {
pendingCommit.rollbackCommit(directory);
deleter.decRef(pendingCommit);
pendingCommit = null;
notifyAll();
}
// Keep the same segmentInfos instance but replace all
// of its SegmentInfo instances. This is so the next
// attempt to commit using this instance of IndexWriter
// will always write to a new generation ("write
// once").
segmentInfos.clear();
segmentInfos.addAll(rollbackSegmentInfos);
assert !hasExternalSegments();
docWriter.abort();
assert testPoint("rollback before checkpoint");
// Ask deleter to locate unreferenced files & remove
// them:
deleter.checkpoint(segmentInfos, false);
deleter.refresh();
}
lastCommitChangeCount = changeCount;
success = true;
} catch (OutOfMemoryError oom) {
hitOOM = true;
throw oom;
} finally {
synchronized(this) {
if (!success) {
docWriter.resumeAllThreads();
closing = false;
notifyAll();
if (infoStream != null)
message("hit exception during rollback");
}
}
}
closeInternal(false);
}
private synchronized void finishMerges(boolean waitForMerges) throws IOException {
if (!waitForMerges) {
stopMerges = true;
// Abort all pending & running merges:
Iterator it = pendingMerges.iterator();
while(it.hasNext()) {
final MergePolicy.OneMerge merge = (MergePolicy.OneMerge) it.next();
if (infoStream != null)
message("now abort pending merge " + merge.segString(directory));
merge.abort();
mergeFinish(merge);
}
pendingMerges.clear();
it = runningMerges.iterator();
while(it.hasNext()) {
final MergePolicy.OneMerge merge = (MergePolicy.OneMerge) it.next();
if (infoStream != null)
message("now abort running merge " + merge.segString(directory));
merge.abort();
}
// Ensure any running addIndexes finishes. It's fine
// if a new one attempts to start because its merges
// will quickly see the stopMerges == true and abort.
acquireRead();
releaseRead();
// These merges periodically check whether they have
// been aborted, and stop if so. We wait here to make
// sure they all stop. It should not take very long
// because the merge threads periodically check if
// they are aborted.
while(runningMerges.size() > 0) {
if (infoStream != null)
message("now wait for " + runningMerges.size() + " running merge to abort");
doWait();
}
stopMerges = false;
notifyAll();
assert 0 == mergingSegments.size();
if (infoStream != null)
message("all running merges have aborted");
} else {
// Ensure any running addIndexes finishes. It's fine
// if a new one attempts to start because from our
// caller above the call will see that we are in the
// process of closing, and will throw an
// AlreadyClosedException.
acquireRead();
releaseRead();
while(pendingMerges.size() > 0 || runningMerges.size() > 0)
doWait();
assert 0 == mergingSegments.size();
}
}
/*
* Called whenever the SegmentInfos has been updated and
* the index files referenced exist (correctly) in the
* index directory.
*/
private synchronized void checkpoint() throws IOException {
changeCount++;
deleter.checkpoint(segmentInfos, false);
}
private void finishAddIndexes() {
releaseWrite();
}
private void blockAddIndexes(boolean includePendingClose) {
acquireRead();
boolean success = false;
try {
// Make sure we are still open since we could have
// waited quite a while for last addIndexes to finish
ensureOpen(includePendingClose);
success = true;
} finally {
if (!success)
releaseRead();
}
}
private void resumeAddIndexes() {
releaseRead();
}
/** Merges all segments from an array of indexes into this index.
* @deprecated Use {@link #addIndexesNoOptimize} instead,
* then separately call {@link #optimize} afterwards if
* you need to.
* @throws CorruptIndexException if the index is corrupt
* @throws IOException if there is a low-level IO error
*/
public void addIndexes(Directory[] dirs)
throws CorruptIndexException, IOException {
ensureOpen();
noDupDirs(dirs);
// Do not allow add docs or deletes while we are running:
docWriter.pauseAllThreads();
try {
if (infoStream != null)
message("flush at addIndexes");
flush(true, false, true);
boolean success = false;
startTransaction(false);
try {
int docCount = 0;
synchronized(this) {
ensureOpen();
for (int i = 0; i < dirs.length; i++) {
SegmentInfos sis = new SegmentInfos(); // read infos from dir
sis.read(dirs[i]);
for (int j = 0; j < sis.size(); j++) {
final SegmentInfo info = sis.info(j);
docCount += info.docCount;
assert !segmentInfos.contains(info);
segmentInfos.add(info); // add each info
}
}
}
// Notify DocumentsWriter that the flushed count just increased
docWriter.updateFlushedDocCount(docCount);
optimize();
success = true;
} finally {
if (success) {
commitTransaction();
} else {
rollbackTransaction();
}
}
} catch (OutOfMemoryError oom) {
hitOOM = true;
throw oom;
} finally {
docWriter.resumeAllThreads();
}
}
private synchronized void resetMergeExceptions() {
mergeExceptions = new ArrayList();
mergeGen++;
}
private void noDupDirs(Directory[] dirs) {
HashSet dups = new HashSet();
for(int i=0;iNOTE: the index in each Directory must not be * changed (opened by a writer) while this method is * running. This method does not acquire a write lock in * each input Directory, so it is up to the caller to * enforce this. * *
NOTE: while this is running, any attempts to * add or delete documents (with another thread) will be * paused until this method completes. * *
This method is transactional in how Exceptions are * handled: it does not commit a new segments_N file until * all indexes are added. This means if an Exception * occurs (for example disk full), then either no indexes * will have been added or they all will have been.
* *Note that this requires temporary free space in the * Directory up to 2X the sum of all input indexes * (including the starting index). If readers/searchers * are open against the starting index, then temporary * free space required will be higher by the size of the * starting index (see {@link #optimize()} for details). *
* *Once this completes, the final size of the index * will be less than the sum of all input index sizes * (including the starting index). It could be quite a * bit smaller (if there were many pending deletes) or * just slightly smaller.
* *
* This requires this index not be among those to be added.
*
* @throws CorruptIndexException if the index is corrupt
* @throws IOException if there is a low-level IO error
*/
public void addIndexesNoOptimize(Directory[] dirs)
throws CorruptIndexException, IOException {
ensureOpen();
noDupDirs(dirs);
// Do not allow add docs or deletes while we are running:
docWriter.pauseAllThreads();
try {
if (infoStream != null)
message("flush at addIndexesNoOptimize");
flush(true, false, true);
boolean success = false;
startTransaction(false);
try {
int docCount = 0;
synchronized(this) {
ensureOpen();
for (int i = 0; i < dirs.length; i++) {
if (directory == dirs[i]) {
// cannot add this index: segments may be deleted in merge before added
throw new IllegalArgumentException("Cannot add this index to itself");
}
SegmentInfos sis = new SegmentInfos(); // read infos from dir
sis.read(dirs[i]);
for (int j = 0; j < sis.size(); j++) {
SegmentInfo info = sis.info(j);
assert !segmentInfos.contains(info): "dup info dir=" + info.dir + " name=" + info.name;
docCount += info.docCount;
segmentInfos.add(info); // add each info
}
}
}
// Notify DocumentsWriter that the flushed count just increased
docWriter.updateFlushedDocCount(docCount);
maybeMerge();
ensureOpen();
// If after merging there remain segments in the index
// that are in a different directory, just copy these
// over into our index. This is necessary (before
// finishing the transaction) to avoid leaving the
// index in an unusable (inconsistent) state.
resolveExternalSegments();
ensureOpen();
success = true;
} finally {
if (success) {
commitTransaction();
} else {
rollbackTransaction();
}
}
} catch (OutOfMemoryError oom) {
hitOOM = true;
throw oom;
} finally {
docWriter.resumeAllThreads();
}
}
private boolean hasExternalSegments() {
return hasExternalSegments(segmentInfos);
}
private boolean hasExternalSegments(SegmentInfos infos) {
final int numSegments = infos.size();
for(int i=0;i
The provided IndexReaders are not closed.
*NOTE: the index in each Directory must not be * changed (opened by a writer) while this method is * running. This method does not acquire a write lock in * each input Directory, so it is up to the caller to * enforce this. * *
NOTE: while this is running, any attempts to * add or delete documents (with another thread) will be * paused until this method completes. * *
See {@link #addIndexesNoOptimize(Directory[])} for * details on transactional semantics, temporary free * space required in the Directory, and non-CFS segments * on an Exception.
* @throws CorruptIndexException if the index is corrupt * @throws IOException if there is a low-level IO error */ public void addIndexes(IndexReader[] readers) throws CorruptIndexException, IOException { ensureOpen(); // Do not allow add docs or deletes while we are running: docWriter.pauseAllThreads(); // We must pre-acquire the write lock here (and not in // startTransaction below) so that no other addIndexes // is allowed to start up after we have flushed & // optimized but before we then start our transaction. // This is because the merging below requires that only // one segment is present in the index: acquireWrite(); try { boolean success = false; SegmentInfo info = null; String mergedName = null; SegmentMerger merger = null; try { flush(true, false, true); optimize(); // start with zero or 1 seg success = true; } finally { // Take care to release the write lock if we hit an // exception before starting the transaction if (!success) releaseWrite(); } // true means we already have write lock; if this call // hits an exception it will release the write lock: startTransaction(true); try { mergedName = newSegmentName(); merger = new SegmentMerger(this, mergedName, null); IndexReader sReader = null; synchronized(this) { if (segmentInfos.size() == 1) { // add existing index, if any sReader = SegmentReader.get(true, segmentInfos.info(0)); } } try { if (sReader != null) merger.add(sReader); for (int i = 0; i < readers.length; i++) // add new indexes merger.add(readers[i]); int docCount = merger.merge(); // merge 'em if(sReader != null) { sReader.close(); sReader = null; } synchronized(this) { segmentInfos.clear(); // pop old infos & add new info = new SegmentInfo(mergedName, docCount, directory, false, true, -1, null, false, merger.hasProx()); segmentInfos.add(info); } // Notify DocumentsWriter that the flushed count just increased docWriter.updateFlushedDocCount(docCount); success = true; } finally { if (sReader != null) { sReader.close(); } } } finally { if (!success) { if (infoStream != null) message("hit exception in addIndexes during merge"); rollbackTransaction(); } else { commitTransaction(); } } if (mergePolicy instanceof LogMergePolicy && getUseCompoundFile()) { List files = null; synchronized(this) { // Must incRef our files so that if another thread // is running merge/optimize, it doesn't delete our // segment's files before we have a change to // finish making the compound file. if (segmentInfos.contains(info)) { files = info.files(); deleter.incRef(files); } } if (files != null) { success = false; startTransaction(false); try { merger.createCompoundFile(mergedName + ".cfs"); synchronized(this) { info.setUseCompoundFile(true); } success = true; } finally { deleter.decRef(files); if (!success) { if (infoStream != null) message("hit exception building compound file in addIndexes during merge"); rollbackTransaction(); } else { commitTransaction(); } } } } } catch (OutOfMemoryError oom) { hitOOM = true; throw oom; } finally { docWriter.resumeAllThreads(); } } // This is called after pending added and deleted // documents have been flushed to the Directory but before // the change is committed (new segments_N file written). void doAfterFlush() throws IOException { } /** * Flush all in-memory buffered updates (adds and deletes) * to the Directory. *Note: while this will force buffered docs to be * pushed into the index, it will not make these docs * visible to a reader. Use {@link #commit()} instead * @throws CorruptIndexException if the index is corrupt * @throws IOException if there is a low-level IO error * @deprecated please call {@link #commit()}) instead */ public final void flush() throws CorruptIndexException, IOException { flush(true, false, true); } /**
Expert: prepare for commit. This does the first * phase of 2-phase commit. You can only call this when * autoCommit is false. This method does all steps * necessary to commit changes since this writer was * opened: flushes pending added and deleted docs, syncs * the index files, writes most of next segments_N file. * After calling this you must call either {@link * #commit()} to finish the commit, or {@link * #rollback()} to revert the commit and undo all changes * done since the writer was opened.
* * You can also just call {@link #commit()} directly * without prepareCommit first in which case that method * will internally call prepareCommit. */ public final void prepareCommit() throws CorruptIndexException, IOException { ensureOpen(); prepareCommit(false); } private final void prepareCommit(boolean internal) throws CorruptIndexException, IOException { if (hitOOM) throw new IllegalStateException("this writer hit an OutOfMemoryError; cannot commit"); if (autoCommit && !internal) throw new IllegalStateException("this method can only be used when autoCommit is false"); if (!autoCommit && pendingCommit != null) throw new IllegalStateException("prepareCommit was already called with no corresponding call to commit"); message("prepareCommit: flush"); flush(true, true, true); startCommit(0); } private void commit(long sizeInBytes) throws IOException { startCommit(sizeInBytes); finishCommit(); } private boolean committing; synchronized private void waitForCommit() { // Only allow a single thread to do the commit, at a time: while(committing) doWait(); committing = true; } synchronized private void doneCommit() { committing = false; notifyAll(); } /** *Commits all pending updates (added & deleted * documents) to the index, and syncs all referenced index * files, such that a reader will see the changes and the * index updates will survive an OS or machine crash or * power loss. Note that this does not wait for any * running background merges to finish. This may be a * costly operation, so you should test the cost in your * application and do it only when really necessary.
* *Note that this operation calls Directory.sync on * the index files. That call should not return until the * file contents & metadata are on stable storage. For * FSDirectory, this calls the OS's fsync. But, beware: * some hardware devices may in fact cache writes even * during fsync, and return before the bits are actually * on stable storage, to give the appearance of faster * performance. If you have such a device, and it does * not have a battery backup (for example) then on power * loss it may still lose data. Lucene cannot guarantee * consistency on such devices.
* * @see #prepareCommit */ public final void commit() throws CorruptIndexException, IOException { ensureOpen(); // Only let one thread do the prepare/finish at a time waitForCommit(); try { message("commit: start"); if (autoCommit || pendingCommit == null) { message("commit: now prepare"); prepareCommit(true); } else message("commit: already prepared"); finishCommit(); } finally { doneCommit(); } } private synchronized final void finishCommit() throws CorruptIndexException, IOException { if (pendingCommit != null) { try { message("commit: pendingCommit != null"); pendingCommit.finishCommit(directory); lastCommitChangeCount = pendingCommitChangeCount; segmentInfos.updateGeneration(pendingCommit); setRollbackSegmentInfos(pendingCommit); deleter.checkpoint(pendingCommit, true); } finally { deleter.decRef(pendingCommit); pendingCommit = null; notifyAll(); } } else message("commit: pendingCommit == null; skip"); message("commit: done"); } /** * Flush all in-memory buffered udpates (adds and deletes) * to the Directory. * @param triggerMerge if true, we may merge segments (if * deletes or docs were flushed) if necessary * @param flushDocStores if false we are allowed to keep * doc stores open to share with the next segment * @param flushDeletes whether pending deletes should also * be flushed */ protected final void flush(boolean triggerMerge, boolean flushDocStores, boolean flushDeletes) throws CorruptIndexException, IOException { // We can be called during close, when closing==true, so we must pass false to ensureOpen: ensureOpen(false); if (doFlush(flushDocStores, flushDeletes) && triggerMerge) maybeMerge(); } // TODO: this method should not have to be entirely // synchronized, ie, merges should be allowed to commit // even while a flush is happening private synchronized final boolean doFlush(boolean flushDocStores, boolean flushDeletes) throws CorruptIndexException, IOException { ensureOpen(false); assert testPoint("startDoFlush"); flushCount++; // Make sure no threads are actively adding a document flushDeletes |= docWriter.deletesFull(); // When autoCommit=true we must always flush deletes // when flushing a segment; otherwise deletes may become // visible before their corresponding added document // from an updateDocument call flushDeletes |= autoCommit; // Returns true if docWriter is currently aborting, in // which case we skip flushing this segment if (docWriter.pauseAllThreads()) { docWriter.resumeAllThreads(); return false; } try { SegmentInfo newSegment = null; final int numDocs = docWriter.getNumDocsInRAM(); // Always flush docs if there are any boolean flushDocs = numDocs > 0; // With autoCommit=true we always must flush the doc // stores when we flush flushDocStores |= autoCommit; String docStoreSegment = docWriter.getDocStoreSegment(); if (docStoreSegment == null) flushDocStores = false; int docStoreOffset = docWriter.getDocStoreOffset(); // docStoreOffset should only be non-zero when // autoCommit == false assert !autoCommit || 0 == docStoreOffset; boolean docStoreIsCompoundFile = false; if (infoStream != null) { message(" flush: segment=" + docWriter.getSegment() + " docStoreSegment=" + docWriter.getDocStoreSegment() + " docStoreOffset=" + docStoreOffset + " flushDocs=" + flushDocs + " flushDeletes=" + flushDeletes + " flushDocStores=" + flushDocStores + " numDocs=" + numDocs + " numBufDelTerms=" + docWriter.getNumBufferedDeleteTerms()); message(" index before flush " + segString()); } // Check if the doc stores must be separately flushed // because other segments, besides the one we are about // to flush, reference it if (flushDocStores && (!flushDocs || !docWriter.getSegment().equals(docWriter.getDocStoreSegment()))) { // We must separately flush the doc store if (infoStream != null) message(" flush shared docStore segment " + docStoreSegment); docStoreIsCompoundFile = flushDocStores(); flushDocStores = false; } String segment = docWriter.getSegment(); // If we are flushing docs, segment must not be null: assert segment != null || !flushDocs; if (flushDocs) { boolean success = false; final int flushedDocCount; try { flushedDocCount = docWriter.flush(flushDocStores); success = true; } finally { if (!success) { if (infoStream != null) message("hit exception flushing segment " + segment); deleter.refresh(segment); } } if (0 == docStoreOffset && flushDocStores) { // This means we are flushing private doc stores // with this segment, so it will not be shared // with other segments assert docStoreSegment != null; assert docStoreSegment.equals(segment); docStoreOffset = -1; docStoreIsCompoundFile = false; docStoreSegment = null; } // Create new SegmentInfo, but do not add to our // segmentInfos until deletes are flushed // successfully. newSegment = new SegmentInfo(segment, flushedDocCount, directory, false, true, docStoreOffset, docStoreSegment, docStoreIsCompoundFile, docWriter.hasProx()); } docWriter.pushDeletes(); if (flushDocs) segmentInfos.add(newSegment); if (flushDeletes) { flushDeletesCount++; applyDeletes(); } doAfterFlush(); if (flushDocs) checkpoint(); if (flushDocs && mergePolicy.useCompoundFile(segmentInfos, newSegment)) { // Now build compound file boolean success = false; try { docWriter.createCompoundFile(segment); success = true; } finally { if (!success) { if (infoStream != null) message("hit exception creating compound file for newly flushed segment " + segment); deleter.deleteFile(segment + "." + IndexFileNames.COMPOUND_FILE_EXTENSION); } } newSegment.setUseCompoundFile(true); checkpoint(); } return flushDocs; } catch (OutOfMemoryError oom) { hitOOM = true; throw oom; } finally { docWriter.clearFlushPending(); docWriter.resumeAllThreads(); } } /** Expert: Return the total s