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/*
* COPIED FROM APACHE LUCENE 4.7.2
*
* Git URL: [email protected]:apache/lucene.git, tag: releases/lucene-solr/4.7.2, path: lucene/core/src/java
*
* (see https://issues.apache.org/jira/browse/OAK-10786 for details)
*/
package org.apache.lucene.analysis;
/*
* 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 org.apache.lucene.analysis.tokenattributes.CharTermAttributeImpl;
import org.apache.lucene.analysis.tokenattributes.OffsetAttribute;
import org.apache.lucene.analysis.tokenattributes.FlagsAttribute;
import org.apache.lucene.analysis.tokenattributes.PayloadAttribute;
import org.apache.lucene.analysis.tokenattributes.PositionIncrementAttribute;
import org.apache.lucene.analysis.tokenattributes.PositionLengthAttribute;
import org.apache.lucene.analysis.tokenattributes.TypeAttribute;
import org.apache.lucene.index.DocsAndPositionsEnum; // for javadoc
import org.apache.lucene.util.Attribute;
import org.apache.lucene.util.AttributeSource;
import org.apache.lucene.util.AttributeImpl;
import org.apache.lucene.util.AttributeReflector;
import org.apache.lucene.util.BytesRef;
/**
A Token is an occurrence of a term from the text of a field. It consists of
a term's text, the start and end offset of the term in the text of the field,
and a type string.
The start and end offsets permit applications to re-associate a token with
its source text, e.g., to display highlighted query terms in a document
browser, or to show matching text fragments in a KWIC
display, etc.
The type is a string, assigned by a lexical analyzer
(a.k.a. tokenizer), naming the lexical or syntactic class that the token
belongs to. For example an end of sentence marker token might be implemented
with type "eos". The default token type is "word".
A Token can optionally have metadata (a.k.a. payload) in the form of a variable
length byte array. Use {@link DocsAndPositionsEnum#getPayload()} to retrieve the
payloads from the index.
NOTE: As of 2.9, Token implements all {@link Attribute} interfaces
that are part of core Lucene and can be found in the {@code tokenattributes} subpackage.
Even though it is not necessary to use Token anymore, with the new TokenStream API it can
be used as convenience class that implements all {@link Attribute}s, which is especially useful
to easily switch from the old to the new TokenStream API.
Tokenizers and TokenFilters should try to re-use a Token
instance when possible for best performance, by
implementing the {@link TokenStream#incrementToken()} API.
Failing that, to create a new Token you should first use
one of the constructors that starts with null text. To load
the token from a char[] use {@link #copyBuffer(char[], int, int)}.
To load from a String use {@link #setEmpty} followed by {@link #append(CharSequence)} or {@link #append(CharSequence, int, int)}.
Alternatively you can get the Token's termBuffer by calling either {@link #buffer()},
if you know that your text is shorter than the capacity of the termBuffer
or {@link #resizeBuffer(int)}, if there is any possibility
that you may need to grow the buffer. Fill in the characters of your term into this
buffer, with {@link String#getChars(int, int, char[], int)} if loading from a string,
or with {@link System#arraycopy(Object, int, Object, int, int)}, and finally call {@link #setLength(int)} to
set the length of the term text. See LUCENE-969
for details.
Typical Token reuse patterns:
- Copying text from a string (type is reset to {@link #DEFAULT_TYPE} if not specified):
return reusableToken.reinit(string, startOffset, endOffset[, type]);
- Copying some text from a string (type is reset to {@link #DEFAULT_TYPE} if not specified):
return reusableToken.reinit(string, 0, string.length(), startOffset, endOffset[, type]);
- Copying text from char[] buffer (type is reset to {@link #DEFAULT_TYPE} if not specified):
return reusableToken.reinit(buffer, 0, buffer.length, startOffset, endOffset[, type]);
- Copying some text from a char[] buffer (type is reset to {@link #DEFAULT_TYPE} if not specified):
return reusableToken.reinit(buffer, start, end - start, startOffset, endOffset[, type]);
- Copying from one one Token to another (type is reset to {@link #DEFAULT_TYPE} if not specified):
return reusableToken.reinit(source.buffer(), 0, source.length(), source.startOffset(), source.endOffset()[, source.type()]);
A few things to note:
- clear() initializes all of the fields to default values. This was changed in contrast to Lucene 2.4, but should affect no one.
- Because
TokenStreams
can be chained, one cannot assume that the Token's
current type is correct.
- The startOffset and endOffset represent the start and offset in the source text, so be careful in adjusting them.
- When caching a reusable token, clone it. When injecting a cached token into a stream that can be reset, clone it again.
Please note: With Lucene 3.1, the {@linkplain #toString toString()}
method had to be changed to match the
{@link CharSequence} interface introduced by the interface {@link org.apache.lucene.analysis.tokenattributes.CharTermAttribute}.
This method now only prints the term text, no additional information anymore.
*/
public class Token extends CharTermAttributeImpl
implements TypeAttribute, PositionIncrementAttribute,
FlagsAttribute, OffsetAttribute, PayloadAttribute, PositionLengthAttribute {
private int startOffset,endOffset;
private String type = DEFAULT_TYPE;
private int flags;
private BytesRef payload;
private int positionIncrement = 1;
private int positionLength = 1;
/** Constructs a Token will null text. */
public Token() {
}
/** Constructs a Token with null text and start & end
* offsets.
* @param start start offset in the source text
* @param end end offset in the source text */
public Token(int start, int end) {
checkOffsets(start, end);
startOffset = start;
endOffset = end;
}
/** Constructs a Token with null text and start & end
* offsets plus the Token type.
* @param start start offset in the source text
* @param end end offset in the source text
* @param typ the lexical type of this Token */
public Token(int start, int end, String typ) {
checkOffsets(start, end);
startOffset = start;
endOffset = end;
type = typ;
}
/**
* Constructs a Token with null text and start & end
* offsets plus flags. NOTE: flags is EXPERIMENTAL.
* @param start start offset in the source text
* @param end end offset in the source text
* @param flags The bits to set for this token
*/
public Token(int start, int end, int flags) {
checkOffsets(start, end);
startOffset = start;
endOffset = end;
this.flags = flags;
}
/** Constructs a Token with the given term text, and start
* & end offsets. The type defaults to "word."
* NOTE: for better indexing speed you should
* instead use the char[] termBuffer methods to set the
* term text.
* @param text term text
* @param start start offset in the source text
* @param end end offset in the source text
*/
public Token(String text, int start, int end) {
checkOffsets(start, end);
append(text);
startOffset = start;
endOffset = end;
}
/** Constructs a Token with the given text, start and end
* offsets, & type. NOTE: for better indexing
* speed you should instead use the char[] termBuffer
* methods to set the term text.
* @param text term text
* @param start start offset in the source text
* @param end end offset in the source text
* @param typ token type
*/
public Token(String text, int start, int end, String typ) {
checkOffsets(start, end);
append(text);
startOffset = start;
endOffset = end;
type = typ;
}
/**
* Constructs a Token with the given text, start and end
* offsets, & type. NOTE: for better indexing
* speed you should instead use the char[] termBuffer
* methods to set the term text.
* @param text term text
* @param start start offset in the source text
* @param end end offset in the source text
* @param flags token type bits
*/
public Token(String text, int start, int end, int flags) {
checkOffsets(start, end);
append(text);
startOffset = start;
endOffset = end;
this.flags = flags;
}
/**
* Constructs a Token with the given term buffer (offset
* & length), start and end
* offsets
* @param startTermBuffer buffer containing term text
* @param termBufferOffset the index in the buffer of the first character
* @param termBufferLength number of valid characters in the buffer
* @param start start offset in the source text
* @param end end offset in the source text
*/
public Token(char[] startTermBuffer, int termBufferOffset, int termBufferLength, int start, int end) {
checkOffsets(start, end);
copyBuffer(startTermBuffer, termBufferOffset, termBufferLength);
startOffset = start;
endOffset = end;
}
/**
* {@inheritDoc}
* @see PositionIncrementAttribute
*/
@Override
public void setPositionIncrement(int positionIncrement) {
if (positionIncrement < 0)
throw new IllegalArgumentException
("Increment must be zero or greater: " + positionIncrement);
this.positionIncrement = positionIncrement;
}
/**
* {@inheritDoc}
* @see PositionIncrementAttribute
*/
@Override
public int getPositionIncrement() {
return positionIncrement;
}
/**
* {@inheritDoc}
* @see PositionLengthAttribute
*/
@Override
public void setPositionLength(int positionLength) {
this.positionLength = positionLength;
}
/**
* {@inheritDoc}
* @see PositionLengthAttribute
*/
@Override
public int getPositionLength() {
return positionLength;
}
/**
* {@inheritDoc}
* @see OffsetAttribute
*/
@Override
public final int startOffset() {
return startOffset;
}
/**
* {@inheritDoc}
* @see OffsetAttribute
*/
@Override
public final int endOffset() {
return endOffset;
}
/**
* {@inheritDoc}
* @see OffsetAttribute
*/
@Override
public void setOffset(int startOffset, int endOffset) {
checkOffsets(startOffset, endOffset);
this.startOffset = startOffset;
this.endOffset = endOffset;
}
/**
* {@inheritDoc}
* @see TypeAttribute
*/
@Override
public final String type() {
return type;
}
/**
* {@inheritDoc}
* @see TypeAttribute
*/
@Override
public final void setType(String type) {
this.type = type;
}
/**
* {@inheritDoc}
* @see FlagsAttribute
*/
@Override
public int getFlags() {
return flags;
}
/**
* {@inheritDoc}
* @see FlagsAttribute
*/
@Override
public void setFlags(int flags) {
this.flags = flags;
}
/**
* {@inheritDoc}
* @see PayloadAttribute
*/
@Override
public BytesRef getPayload() {
return this.payload;
}
/**
* {@inheritDoc}
* @see PayloadAttribute
*/
@Override
public void setPayload(BytesRef payload) {
this.payload = payload;
}
/** Resets the term text, payload, flags, and positionIncrement,
* startOffset, endOffset and token type to default.
*/
@Override
public void clear() {
super.clear();
payload = null;
positionIncrement = 1;
flags = 0;
startOffset = endOffset = 0;
type = DEFAULT_TYPE;
}
@Override
public Token clone() {
Token t = (Token)super.clone();
// Do a deep clone
if (payload != null) {
t.payload = payload.clone();
}
return t;
}
/** Makes a clone, but replaces the term buffer &
* start/end offset in the process. This is more
* efficient than doing a full clone (and then calling
* {@link #copyBuffer}) because it saves a wasted copy of the old
* termBuffer. */
public Token clone(char[] newTermBuffer, int newTermOffset, int newTermLength, int newStartOffset, int newEndOffset) {
final Token t = new Token(newTermBuffer, newTermOffset, newTermLength, newStartOffset, newEndOffset);
t.positionIncrement = positionIncrement;
t.flags = flags;
t.type = type;
if (payload != null)
t.payload = payload.clone();
return t;
}
@Override
public boolean equals(Object obj) {
if (obj == this)
return true;
if (obj instanceof Token) {
final Token other = (Token) obj;
return (startOffset == other.startOffset &&
endOffset == other.endOffset &&
flags == other.flags &&
positionIncrement == other.positionIncrement &&
(type == null ? other.type == null : type.equals(other.type)) &&
(payload == null ? other.payload == null : payload.equals(other.payload)) &&
super.equals(obj)
);
} else
return false;
}
@Override
public int hashCode() {
int code = super.hashCode();
code = code * 31 + startOffset;
code = code * 31 + endOffset;
code = code * 31 + flags;
code = code * 31 + positionIncrement;
if (type != null)
code = code * 31 + type.hashCode();
if (payload != null)
code = code * 31 + payload.hashCode();
return code;
}
// like clear() but doesn't clear termBuffer/text
private void clearNoTermBuffer() {
payload = null;
positionIncrement = 1;
flags = 0;
startOffset = endOffset = 0;
type = DEFAULT_TYPE;
}
/** Shorthand for calling {@link #clear},
* {@link #copyBuffer(char[], int, int)},
* {@link #setOffset},
* {@link #setType}
* @return this Token instance */
public Token reinit(char[] newTermBuffer, int newTermOffset, int newTermLength, int newStartOffset, int newEndOffset, String newType) {
checkOffsets(newStartOffset, newEndOffset);
clearNoTermBuffer();
copyBuffer(newTermBuffer, newTermOffset, newTermLength);
payload = null;
positionIncrement = 1;
startOffset = newStartOffset;
endOffset = newEndOffset;
type = newType;
return this;
}
/** Shorthand for calling {@link #clear},
* {@link #copyBuffer(char[], int, int)},
* {@link #setOffset},
* {@link #setType} on Token.DEFAULT_TYPE
* @return this Token instance */
public Token reinit(char[] newTermBuffer, int newTermOffset, int newTermLength, int newStartOffset, int newEndOffset) {
checkOffsets(newStartOffset, newEndOffset);
clearNoTermBuffer();
copyBuffer(newTermBuffer, newTermOffset, newTermLength);
startOffset = newStartOffset;
endOffset = newEndOffset;
type = DEFAULT_TYPE;
return this;
}
/** Shorthand for calling {@link #clear},
* {@link #append(CharSequence)},
* {@link #setOffset},
* {@link #setType}
* @return this Token instance */
public Token reinit(String newTerm, int newStartOffset, int newEndOffset, String newType) {
checkOffsets(newStartOffset, newEndOffset);
clear();
append(newTerm);
startOffset = newStartOffset;
endOffset = newEndOffset;
type = newType;
return this;
}
/** Shorthand for calling {@link #clear},
* {@link #append(CharSequence, int, int)},
* {@link #setOffset},
* {@link #setType}
* @return this Token instance */
public Token reinit(String newTerm, int newTermOffset, int newTermLength, int newStartOffset, int newEndOffset, String newType) {
checkOffsets(newStartOffset, newEndOffset);
clear();
append(newTerm, newTermOffset, newTermOffset + newTermLength);
startOffset = newStartOffset;
endOffset = newEndOffset;
type = newType;
return this;
}
/** Shorthand for calling {@link #clear},
* {@link #append(CharSequence)},
* {@link #setOffset},
* {@link #setType} on Token.DEFAULT_TYPE
* @return this Token instance */
public Token reinit(String newTerm, int newStartOffset, int newEndOffset) {
checkOffsets(newStartOffset, newEndOffset);
clear();
append(newTerm);
startOffset = newStartOffset;
endOffset = newEndOffset;
type = DEFAULT_TYPE;
return this;
}
/** Shorthand for calling {@link #clear},
* {@link #append(CharSequence, int, int)},
* {@link #setOffset},
* {@link #setType} on Token.DEFAULT_TYPE
* @return this Token instance */
public Token reinit(String newTerm, int newTermOffset, int newTermLength, int newStartOffset, int newEndOffset) {
checkOffsets(newStartOffset, newEndOffset);
clear();
append(newTerm, newTermOffset, newTermOffset + newTermLength);
startOffset = newStartOffset;
endOffset = newEndOffset;
type = DEFAULT_TYPE;
return this;
}
/**
* Copy the prototype token's fields into this one. Note: Payloads are shared.
* @param prototype source Token to copy fields from
*/
public void reinit(Token prototype) {
copyBuffer(prototype.buffer(), 0, prototype.length());
positionIncrement = prototype.positionIncrement;
flags = prototype.flags;
startOffset = prototype.startOffset;
endOffset = prototype.endOffset;
type = prototype.type;
payload = prototype.payload;
}
/**
* Copy the prototype token's fields into this one, with a different term. Note: Payloads are shared.
* @param prototype existing Token
* @param newTerm new term text
*/
public void reinit(Token prototype, String newTerm) {
setEmpty().append(newTerm);
positionIncrement = prototype.positionIncrement;
flags = prototype.flags;
startOffset = prototype.startOffset;
endOffset = prototype.endOffset;
type = prototype.type;
payload = prototype.payload;
}
/**
* Copy the prototype token's fields into this one, with a different term. Note: Payloads are shared.
* @param prototype existing Token
* @param newTermBuffer buffer containing new term text
* @param offset the index in the buffer of the first character
* @param length number of valid characters in the buffer
*/
public void reinit(Token prototype, char[] newTermBuffer, int offset, int length) {
copyBuffer(newTermBuffer, offset, length);
positionIncrement = prototype.positionIncrement;
flags = prototype.flags;
startOffset = prototype.startOffset;
endOffset = prototype.endOffset;
type = prototype.type;
payload = prototype.payload;
}
@Override
public void copyTo(AttributeImpl target) {
if (target instanceof Token) {
final Token to = (Token) target;
to.reinit(this);
// reinit shares the payload, so clone it:
if (payload !=null) {
to.payload = payload.clone();
}
} else {
super.copyTo(target);
((OffsetAttribute) target).setOffset(startOffset, endOffset);
((PositionIncrementAttribute) target).setPositionIncrement(positionIncrement);
((PayloadAttribute) target).setPayload((payload == null) ? null : payload.clone());
((FlagsAttribute) target).setFlags(flags);
((TypeAttribute) target).setType(type);
}
}
@Override
public void reflectWith(AttributeReflector reflector) {
super.reflectWith(reflector);
reflector.reflect(OffsetAttribute.class, "startOffset", startOffset);
reflector.reflect(OffsetAttribute.class, "endOffset", endOffset);
reflector.reflect(PositionIncrementAttribute.class, "positionIncrement", positionIncrement);
reflector.reflect(PayloadAttribute.class, "payload", payload);
reflector.reflect(FlagsAttribute.class, "flags", flags);
reflector.reflect(TypeAttribute.class, "type", type);
}
private void checkOffsets(int startOffset, int endOffset) {
if (startOffset < 0 || endOffset < startOffset) {
throw new IllegalArgumentException("startOffset must be non-negative, and endOffset must be >= startOffset, "
+ "startOffset=" + startOffset + ",endOffset=" + endOffset);
}
}
/** Convenience factory that returns Token
as implementation for the basic
* attributes and return the default impl (with "Impl" appended) for all other
* attributes.
* @since 3.0
*/
public static final AttributeSource.AttributeFactory TOKEN_ATTRIBUTE_FACTORY =
new TokenAttributeFactory(AttributeSource.AttributeFactory.DEFAULT_ATTRIBUTE_FACTORY);
/** Expert: Creates a TokenAttributeFactory returning {@link Token} as instance for the basic attributes
* and for all other attributes calls the given delegate factory.
* @since 3.0
*/
public static final class TokenAttributeFactory extends AttributeSource.AttributeFactory {
private final AttributeSource.AttributeFactory delegate;
/** Expert: Creates an AttributeFactory returning {@link Token} as instance for the basic attributes
* and for all other attributes calls the given delegate factory. */
public TokenAttributeFactory(AttributeSource.AttributeFactory delegate) {
this.delegate = delegate;
}
@Override
public AttributeImpl createAttributeInstance(Class extends Attribute> attClass) {
return attClass.isAssignableFrom(Token.class)
? new Token() : delegate.createAttributeInstance(attClass);
}
@Override
public boolean equals(Object other) {
if (this == other) return true;
if (other instanceof TokenAttributeFactory) {
final TokenAttributeFactory af = (TokenAttributeFactory) other;
return this.delegate.equals(af.delegate);
}
return false;
}
@Override
public int hashCode() {
return delegate.hashCode() ^ 0x0a45aa31;
}
}
}