package org.apache.lucene.search;
/**
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
import java.io.IOException;
import java.io.PrintStream;
import java.util.ArrayList;
import java.util.HashMap;
import java.util.List;
import java.util.Map;
import java.util.WeakHashMap;
import org.apache.lucene.index.IndexReader;
import org.apache.lucene.index.Term;
import org.apache.lucene.index.TermDocs;
import org.apache.lucene.index.TermEnum;
import org.apache.lucene.util.StringHelper;
import org.apache.lucene.util.FieldCacheSanityChecker;
/**
* Expert: The default cache implementation, storing all values in memory.
* A WeakHashMap is used for storage.
*
* <p>Created: May 19, 2004 4:40:36 PM
*
* @since lucene 1.4
*/
class FieldCacheImpl implements FieldCache {
private Map<Class<?>,Cache> caches;
FieldCacheImpl() {
init();
}
private synchronized void init() {
caches = new HashMap<Class<?>,Cache>(7);
caches.put(Byte.TYPE, new ByteCache(this));
caches.put(Short.TYPE, new ShortCache(this));
caches.put(Integer.TYPE, new IntCache(this));
caches.put(Float.TYPE, new FloatCache(this));
caches.put(Long.TYPE, new LongCache(this));
caches.put(Double.TYPE, new DoubleCache(this));
caches.put(String.class, new StringCache(this));
caches.put(StringIndex.class, new StringIndexCache(this));
}
public void purgeAllCaches() {
init();
}
public void purge(IndexReader r) {
for(Cache c : caches.values()) {
c.purge(r);
}
}
public CacheEntry[] getCacheEntries() {
List<CacheEntry> result = new ArrayList<CacheEntry>(17);
for(final Class<?> cacheType: caches.keySet()) {
Cache cache = caches.get(cacheType);
for (final Object readerKey : cache.readerCache.keySet()) {
// we've now materialized a hard ref
// innerKeys was backed by WeakHashMap, sanity check
// that it wasn't GCed before we made hard ref
if (null != readerKey && cache.readerCache.containsKey(readerKey)) {
Map<Entry, Object> innerCache = cache.readerCache.get(readerKey);
for (final Map.Entry<Entry, Object> mapEntry : innerCache.entrySet()) {
Entry entry = mapEntry.getKey();
result.add(new CacheEntryImpl(readerKey, entry.field,
cacheType, entry.custom,
mapEntry.getValue()));
}
}
}
}
return result.toArray(new CacheEntry[result.size()]);
}
private static final class CacheEntryImpl extends CacheEntry {
private final Object readerKey;
private final String fieldName;
private final Class<?> cacheType;
private final Object custom;
private final Object value;
CacheEntryImpl(Object readerKey, String fieldName,
Class<?> cacheType,
Object custom,
Object value) {
this.readerKey = readerKey;
this.fieldName = fieldName;
this.cacheType = cacheType;
this.custom = custom;
this.value = value;
// :HACK: for testing.
// if (null != locale || SortField.CUSTOM != sortFieldType) {
// throw new RuntimeException("Locale/sortFieldType: " + this);
// }
}
@Override
public Object getReaderKey() { return readerKey; }
@Override
public String getFieldName() { return fieldName; }
@Override
public Class<?> getCacheType() { return cacheType; }
@Override
public Object getCustom() { return custom; }
@Override
public Object getValue() { return value; }
}
/**
* Hack: When thrown from a Parser (NUMERIC_UTILS_* ones), this stops
* processing terms and returns the current FieldCache
* array.
*/
static final class StopFillCacheException extends RuntimeException {
}
/** Expert: Internal cache. */
abstract static class Cache {
Cache() {
this.wrapper = null;
}
Cache(FieldCache wrapper) {
this.wrapper = wrapper;
}
final FieldCache wrapper;
final Map<Object,Map<Entry,Object>> readerCache = new WeakHashMap<Object,Map<Entry,Object>>();
protected abstract Object createValue(IndexReader reader, Entry key)
throws IOException;
/** Remove this reader from the cache, if present. */
public void purge(IndexReader r) {
Object readerKey = r.getFieldCacheKey();
synchronized(readerCache) {
readerCache.remove(readerKey);
}
}
public Object get(IndexReader reader, Entry key) throws IOException {
Map<Entry,Object> innerCache;
Object value;
final Object readerKey = reader.getFieldCacheKey();
synchronized (readerCache) {
innerCache = readerCache.get(readerKey);
if (innerCache == null) {
innerCache = new HashMap<Entry,Object>();
readerCache.put(readerKey, innerCache);
value = null;
} else {
value = innerCache.get(key);
}
if (value == null) {
value = new CreationPlaceholder();
innerCache.put(key, value);
}
}
if (value instanceof CreationPlaceholder) {
synchronized (value) {
CreationPlaceholder progress = (CreationPlaceholder) value;
if (progress.value == null) {
progress.value = createValue(reader, key);
synchronized (readerCache) {
innerCache.put(key, progress.value);
}
// Only check if key.custom (the parser) is
// non-null; else, we check twice for a single
// call to FieldCache.getXXX
if (key.custom != null && wrapper != null) {
final PrintStream infoStream = wrapper.getInfoStream();
if (infoStream != null) {
printNewInsanity(infoStream, progress.value);
}
}
}
return progress.value;
}
}
return value;
}
private void printNewInsanity(PrintStream infoStream, Object value) {
final FieldCacheSanityChecker.Insanity[] insanities = FieldCacheSanityChecker.checkSanity(wrapper);
for(int i=0;i<insanities.length;i++) {
final FieldCacheSanityChecker.Insanity insanity = insanities[i];
final CacheEntry[] entries = insanity.getCacheEntries();
for(int j=0;j<entries.length;j++) {
if (entries[j].getValue() == value) {
// OK this insanity involves our entry
infoStream.println("WARNING: new FieldCache insanity created\nDetails: " + insanity.toString());
infoStream.println("\nStack:\n");
new Throwable().printStackTrace(infoStream);
break;
}
}
}
}
}
/** Expert: Every composite-key in the internal cache is of this type. */
static class Entry {
final String field; // which Fieldable
final Object custom; // which custom comparator or parser
/** Creates one of these objects for a custom comparator/parser. */
Entry (String field, Object custom) {
this.field = StringHelper.intern(field);
this.custom = custom;
}
/** Two of these are equal iff they reference the same field and type. */
@Override
public boolean equals (Object o) {
if (o instanceof Entry) {
Entry other = (Entry) o;
if (other.field == field) {
if (other.custom == null) {
if (custom == null) return true;
} else if (other.custom.equals (custom)) {
return true;
}
}
}
return false;
}
/** Composes a hashcode based on the field and type. */
@Override
public int hashCode() {
return field.hashCode() ^ (custom==null ? 0 : custom.hashCode());
}
}
// inherit javadocs
public byte[] getBytes (IndexReader reader, String field) throws IOException {
return getBytes(reader, field, null);
}
// inherit javadocs
public byte[] getBytes(IndexReader reader, String field, ByteParser parser)
throws IOException {
return (byte[]) caches.get(Byte.TYPE).get(reader, new Entry(field, parser));
}
static final class ByteCache extends Cache {
ByteCache(FieldCache wrapper) {
super(wrapper);
}
@Override
protected Object createValue(IndexReader reader, Entry entryKey)
throws IOException {
Entry entry = entryKey;
String field = entry.field;
ByteParser parser = (ByteParser) entry.custom;
if (parser == null) {
return wrapper.getBytes(reader, field, FieldCache.DEFAULT_BYTE_PARSER);
}
final byte[] retArray = new byte[reader.maxDoc()];
TermDocs termDocs = reader.termDocs();
TermEnum termEnum = reader.terms (new Term (field));
try {
do {
Term term = termEnum.term();
if (term==null || term.field() != field) break;
byte termval = parser.parseByte(term.text());
termDocs.seek (termEnum);
while (termDocs.next()) {
retArray[termDocs.doc()] = termval;
}
} while (termEnum.next());
} catch (StopFillCacheException stop) {
} finally {
termDocs.close();
termEnum.close();
}
return retArray;
}
};
// inherit javadocs
public short[] getShorts (IndexReader reader, String field) throws IOException {
return getShorts(reader, field, null);
}
// inherit javadocs
public short[] getShorts(IndexReader reader, String field, ShortParser parser)
throws IOException {
return (short[]) caches.get(Short.TYPE).get(reader, new Entry(field, parser));
}
static final class ShortCache extends Cache {
ShortCache(FieldCache wrapper) {
super(wrapper);
}
@Override
protected Object createValue(IndexReader reader, Entry entryKey)
throws IOException {
Entry entry = entryKey;
String field = entry.field;
ShortParser parser = (ShortParser) entry.custom;
if (parser == null) {
return wrapper.getShorts(reader, field, FieldCache.DEFAULT_SHORT_PARSER);
}
final short[] retArray = new short[reader.maxDoc()];
TermDocs termDocs = reader.termDocs();
TermEnum termEnum = reader.terms (new Term (field));
try {
do {
Term term = termEnum.term();
if (term==null || term.field() != field) break;
short termval = parser.parseShort(term.text());
termDocs.seek (termEnum);
while (termDocs.next()) {
retArray[termDocs.doc()] = termval;
}
} while (termEnum.next());
} catch (StopFillCacheException stop) {
} finally {
termDocs.close();
termEnum.close();
}
return retArray;
}
};
// inherit javadocs
public int[] getInts (IndexReader reader, String field) throws IOException {
return getInts(reader, field, null);
}
// inherit javadocs
public int[] getInts(IndexReader reader, String field, IntParser parser)
throws IOException {
return (int[]) caches.get(Integer.TYPE).get(reader, new Entry(field, parser));
}
static final class IntCache extends Cache {
IntCache(FieldCache wrapper) {
super(wrapper);
}
@Override
protected Object createValue(IndexReader reader, Entry entryKey)
throws IOException {
Entry entry = entryKey;
String field = entry.field;
IntParser parser = (IntParser) entry.custom;
if (parser == null) {
try {
return wrapper.getInts(reader, field, DEFAULT_INT_PARSER);
} catch (NumberFormatException ne) {
return wrapper.getInts(reader, field, NUMERIC_UTILS_INT_PARSER);
}
}
int[] retArray = null;
TermDocs termDocs = reader.termDocs();
TermEnum termEnum = reader.terms (new Term (field));
try {
do {
Term term = termEnum.term();
if (term==null || term.field() != field) break;
int termval = parser.parseInt(term.text());
if (retArray == null) // late init
retArray = new int[reader.maxDoc()];
termDocs.seek (termEnum);
while (termDocs.next()) {
retArray[termDocs.doc()] = termval;
}
} while (termEnum.next());
} catch (StopFillCacheException stop) {
} finally {
termDocs.close();
termEnum.close();
}
if (retArray == null) // no values
retArray = new int[reader.maxDoc()];
return retArray;
}
};
// inherit javadocs
public float[] getFloats (IndexReader reader, String field)
throws IOException {
return getFloats(reader, field, null);
}
// inherit javadocs
public float[] getFloats(IndexReader reader, String field, FloatParser parser)
throws IOException {
return (float[]) caches.get(Float.TYPE).get(reader, new Entry(field, parser));
}
static final class FloatCache extends Cache {
FloatCache(FieldCache wrapper) {
super(wrapper);
}
@Override
protected Object createValue(IndexReader reader, Entry entryKey)
throws IOException {
Entry entry = entryKey;
String field = entry.field;
FloatParser parser = (FloatParser) entry.custom;
if (parser == null) {
try {
return wrapper.getFloats(reader, field, DEFAULT_FLOAT_PARSER);
} catch (NumberFormatException ne) {
return wrapper.getFloats(reader, field, NUMERIC_UTILS_FLOAT_PARSER);
}
}
float[] retArray = null;
TermDocs termDocs = reader.termDocs();
TermEnum termEnum = reader.terms (new Term (field));
try {
do {
Term term = termEnum.term();
if (term==null || term.field() != field) break;
float termval = parser.parseFloat(term.text());
if (retArray == null) // late init
retArray = new float[reader.maxDoc()];
termDocs.seek (termEnum);
while (termDocs.next()) {
retArray[termDocs.doc()] = termval;
}
} while (termEnum.next());
} catch (StopFillCacheException stop) {
} finally {
termDocs.close();
termEnum.close();
}
if (retArray == null) // no values
retArray = new float[reader.maxDoc()];
return retArray;
}
};
public long[] getLongs(IndexReader reader, String field) throws IOException {
return getLongs(reader, field, null);
}
// inherit javadocs
public long[] getLongs(IndexReader reader, String field, FieldCache.LongParser parser)
throws IOException {
return (long[]) caches.get(Long.TYPE).get(reader, new Entry(field, parser));
}
static final class LongCache extends Cache {
LongCache(FieldCache wrapper) {
super(wrapper);
}
@Override
protected Object createValue(IndexReader reader, Entry entry)
throws IOException {
String field = entry.field;
FieldCache.LongParser parser = (FieldCache.LongParser) entry.custom;
if (parser == null) {
try {
return wrapper.getLongs(reader, field, DEFAULT_LONG_PARSER);
} catch (NumberFormatException ne) {
return wrapper.getLongs(reader, field, NUMERIC_UTILS_LONG_PARSER);
}
}
long[] retArray = null;
TermDocs termDocs = reader.termDocs();
TermEnum termEnum = reader.terms (new Term(field));
try {
do {
Term term = termEnum.term();
if (term==null || term.field() != field) break;
long termval = parser.parseLong(term.text());
if (retArray == null) // late init
retArray = new long[reader.maxDoc()];
termDocs.seek (termEnum);
while (termDocs.next()) {
retArray[termDocs.doc()] = termval;
}
} while (termEnum.next());
} catch (StopFillCacheException stop) {
} finally {
termDocs.close();
termEnum.close();
}
if (retArray == null) // no values
retArray = new long[reader.maxDoc()];
return retArray;
}
};
// inherit javadocs
public double[] getDoubles(IndexReader reader, String field)
throws IOException {
return getDoubles(reader, field, null);
}
// inherit javadocs
public double[] getDoubles(IndexReader reader, String field, FieldCache.DoubleParser parser)
throws IOException {
return (double[]) caches.get(Double.TYPE).get(reader, new Entry(field, parser));
}
static final class DoubleCache extends Cache {
DoubleCache(FieldCache wrapper) {
super(wrapper);
}
@Override
protected Object createValue(IndexReader reader, Entry entryKey)
throws IOException {
Entry entry = entryKey;
String field = entry.field;
FieldCache.DoubleParser parser = (FieldCache.DoubleParser) entry.custom;
if (parser == null) {
try {
return wrapper.getDoubles(reader, field, DEFAULT_DOUBLE_PARSER);
} catch (NumberFormatException ne) {
return wrapper.getDoubles(reader, field, NUMERIC_UTILS_DOUBLE_PARSER);
}
}
double[] retArray = null;
TermDocs termDocs = reader.termDocs();
TermEnum termEnum = reader.terms (new Term (field));
try {
do {
Term term = termEnum.term();
if (term==null || term.field() != field) break;
double termval = parser.parseDouble(term.text());
if (retArray == null) // late init
retArray = new double[reader.maxDoc()];
termDocs.seek (termEnum);
while (termDocs.next()) {
retArray[termDocs.doc()] = termval;
}
} while (termEnum.next());
} catch (StopFillCacheException stop) {
} finally {
termDocs.close();
termEnum.close();
}
if (retArray == null) // no values
retArray = new double[reader.maxDoc()];
return retArray;
}
};
// inherit javadocs
public String[] getStrings(IndexReader reader, String field)
throws IOException {
return (String[]) caches.get(String.class).get(reader, new Entry(field, (Parser)null));
}
static final class StringCache extends Cache {
StringCache(FieldCache wrapper) {
super(wrapper);
}
@Override
protected Object createValue(IndexReader reader, Entry entryKey)
throws IOException {
String field = StringHelper.intern(entryKey.field);
final String[] retArray = new String[reader.maxDoc()];
TermDocs termDocs = reader.termDocs();
TermEnum termEnum = reader.terms (new Term (field));
try {
do {
Term term = termEnum.term();
if (term==null || term.field() != field) break;
String termval = term.text();
termDocs.seek (termEnum);
while (termDocs.next()) {
retArray[termDocs.doc()] = termval;
}
} while (termEnum.next());
} finally {
termDocs.close();
termEnum.close();
}
return retArray;
}
};
// inherit javadocs
public StringIndex getStringIndex(IndexReader reader, String field)
throws IOException {
return (StringIndex) caches.get(StringIndex.class).get(reader, new Entry(field, (Parser)null));
}
static final class StringIndexCache extends Cache {
StringIndexCache(FieldCache wrapper) {
super(wrapper);
}
@Override
protected Object createValue(IndexReader reader, Entry entryKey)
throws IOException {
String field = StringHelper.intern(entryKey.field);
final int[] retArray = new int[reader.maxDoc()];
String[] mterms = new String[reader.maxDoc()+1];
TermDocs termDocs = reader.termDocs();
TermEnum termEnum = reader.terms (new Term (field));
int t = 0; // current term number
// an entry for documents that have no terms in this field
// should a document with no terms be at top or bottom?
// this puts them at the top - if it is changed, FieldDocSortedHitQueue
// needs to change as well.
mterms[t++] = null;
try {
do {
Term term = termEnum.term();
if (term==null || term.field() != field) break;
// store term text
mterms[t] = term.text();
termDocs.seek (termEnum);
while (termDocs.next()) {
retArray[termDocs.doc()] = t;
}
t++;
} while (termEnum.next());
} finally {
termDocs.close();
termEnum.close();
}
if (t == 0) {
// if there are no terms, make the term array
// have a single null entry
mterms = new String[1];
} else if (t < mterms.length) {
// if there are less terms than documents,
// trim off the dead array space
String[] terms = new String[t];
System.arraycopy (mterms, 0, terms, 0, t);
mterms = terms;
}
StringIndex value = new StringIndex (retArray, mterms);
return value;
}
};
private volatile PrintStream infoStream;
public void setInfoStream(PrintStream stream) {
infoStream = stream;
}
public PrintStream getInfoStream() {
return infoStream;
}
}