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ICUTokenizer
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IOBUFFER: int
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buffer: char[]
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length: int
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usableLength: int
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offset: int
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breaker: CompositeBreakIterator
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config: ICUTokenizerConfig
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offsetAtt: OffsetAttribute
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termAtt: CharTermAttribute
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typeAtt: TypeAttribute
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scriptAtt: ScriptAttribute
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ICUTokenizer(): void
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ICUTokenizer(ICUTokenizerConfig): void
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ICUTokenizer(AttributeFactory, ICUTokenizerConfig): void
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incrementToken(): boolean
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reset(): void
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end(): void
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findSafeEnd(): int
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refill(): void
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read(Reader, char[], int, int): int
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incrementTokenBuffer(): boolean
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/*
* 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.
*/
package org.apache.lucene.analysis.icu.segmentation;
import java.io.IOException;
import java.io.Reader;
import org.apache.lucene.analysis.Tokenizer;
import org.apache.lucene.analysis.icu.tokenattributes.ScriptAttribute;
import org.apache.lucene.analysis.tokenattributes.OffsetAttribute;
import org.apache.lucene.analysis.tokenattributes.CharTermAttribute;
import org.apache.lucene.analysis.tokenattributes.TypeAttribute;
import org.apache.lucene.util.AttributeFactory;
import com.ibm.icu.lang.UCharacter;
import com.ibm.icu.text.BreakIterator;
Breaks text into words according to UAX #29: Unicode Text Segmentation
(http://www.unicode.org/reports/tr29/)
Words are broken across script boundaries, then segmented according to the BreakIterator and typing provided by the ICUTokenizerConfig
See Also: @lucene.experimental
/**
* Breaks text into words according to UAX #29: Unicode Text Segmentation
* (http://www.unicode.org/reports/tr29/)
* <p>
* Words are broken across script boundaries, then segmented according to
* the BreakIterator and typing provided by the {@link ICUTokenizerConfig}
* </p>
* @see ICUTokenizerConfig
* @lucene.experimental
*/
public final class ICUTokenizer extends Tokenizer {
private static final int IOBUFFER = 4096;
private final char buffer[] = new char[IOBUFFER];
true length of text in the buffer /** true length of text in the buffer */
private int length = 0;
length in buffer that can be evaluated safely, up to a safe end point /** length in buffer that can be evaluated safely, up to a safe end point */
private int usableLength = 0;
accumulated offset of previous buffers for this reader, for offsetAtt /** accumulated offset of previous buffers for this reader, for offsetAtt */
private int offset = 0;
private final CompositeBreakIterator breaker; /* tokenizes a char[] of text */
private final ICUTokenizerConfig config;
private final OffsetAttribute offsetAtt = addAttribute(OffsetAttribute.class);
private final CharTermAttribute termAtt = addAttribute(CharTermAttribute.class);
private final TypeAttribute typeAtt = addAttribute(TypeAttribute.class);
private final ScriptAttribute scriptAtt = addAttribute(ScriptAttribute.class);
Construct a new ICUTokenizer that breaks text into words from the given
Reader.
The default script-specific handling is used.
The default attribute factory is used.
See Also: - DefaultICUTokenizerConfig
/**
* Construct a new ICUTokenizer that breaks text into words from the given
* Reader.
* <p>
* The default script-specific handling is used.
* <p>
* The default attribute factory is used.
*
* @see DefaultICUTokenizerConfig
*/
public ICUTokenizer() {
this(new DefaultICUTokenizerConfig(true, true));
}
Construct a new ICUTokenizer that breaks text into words from the given
Reader, using a tailored BreakIterator configuration.
The default attribute factory is used.
Params: - config – Tailored BreakIterator configuration
/**
* Construct a new ICUTokenizer that breaks text into words from the given
* Reader, using a tailored BreakIterator configuration.
* <p>
* The default attribute factory is used.
*
* @param config Tailored BreakIterator configuration
*/
public ICUTokenizer(ICUTokenizerConfig config) {
this(DEFAULT_TOKEN_ATTRIBUTE_FACTORY, config);
}
Construct a new ICUTokenizer that breaks text into words from the given
Reader, using a tailored BreakIterator configuration.
Params: - factory – AttributeFactory to use
- config – Tailored BreakIterator configuration
/**
* Construct a new ICUTokenizer that breaks text into words from the given
* Reader, using a tailored BreakIterator configuration.
*
* @param factory AttributeFactory to use
* @param config Tailored BreakIterator configuration
*/
public ICUTokenizer(AttributeFactory factory, ICUTokenizerConfig config) {
super(factory);
this.config = config;
breaker = new CompositeBreakIterator(config);
}
@Override
public boolean incrementToken() throws IOException {
clearAttributes();
if (length == 0)
refill();
while (!incrementTokenBuffer()) {
refill();
if (length <= 0) // no more bytes to read;
return false;
}
return true;
}
@Override
public void reset() throws IOException {
super.reset();
breaker.setText(buffer, 0, 0);
length = usableLength = offset = 0;
}
@Override
public void end() throws IOException {
super.end();
final int finalOffset = (length < 0) ? offset : offset + length;
offsetAtt.setOffset(correctOffset(finalOffset), correctOffset(finalOffset));
}
/*
* This tokenizes text based upon the longest matching rule, and because of
* this, isn't friendly to a Reader.
*
* Text is read from the input stream in 4kB chunks. Within a 4kB chunk of
* text, the last unambiguous break point is found (in this implementation:
* white space character) Any remaining characters represent possible partial
* words, so are appended to the front of the next chunk.
*
* There is the possibility that there are no unambiguous break points within
* an entire 4kB chunk of text (binary data). So there is a maximum word limit
* of 4kB since it will not try to grow the buffer in this case.
*/
Returns the last unambiguous break position in the text.
Returns: position of character, or -1 if one does not exist
/**
* Returns the last unambiguous break position in the text.
*
* @return position of character, or -1 if one does not exist
*/
private int findSafeEnd() {
for (int i = length - 1; i >= 0; i--)
if (UCharacter.isWhitespace(buffer[i]))
return i + 1;
return -1;
}
Refill the buffer, accumulating the offset and setting usableLength to the
last unambiguous break position
Throws: - IOException – If there is a low-level I/O error.
/**
* Refill the buffer, accumulating the offset and setting usableLength to the
* last unambiguous break position
*
* @throws IOException If there is a low-level I/O error.
*/
private void refill() throws IOException {
offset += usableLength;
int leftover = length - usableLength;
System.arraycopy(buffer, usableLength, buffer, 0, leftover);
int requested = buffer.length - leftover;
int returned = read(input, buffer, leftover, requested);
length = returned + leftover;
if (returned < requested) /* reader has been emptied, process the rest */
usableLength = length;
else { /* still more data to be read, find a safe-stopping place */
usableLength = findSafeEnd();
if (usableLength < 0)
usableLength = length; /*
* more than IOBUFFER of text without space,
* gonna possibly truncate tokens
*/
}
breaker.setText(buffer, 0, Math.max(0, usableLength));
}
// TODO: refactor to a shared readFully somewhere
// (NGramTokenizer does this too):
commons-io's readFully, but without bugs if offset != 0 /** commons-io's readFully, but without bugs if offset != 0 */
private static int read(Reader input, char[] buffer, int offset, int length) throws IOException {
assert length >= 0 : "length must not be negative: " + length;
int remaining = length;
while ( remaining > 0 ) {
int location = length - remaining;
int count = input.read( buffer, offset + location, remaining );
if ( -1 == count ) { // EOF
break;
}
remaining -= count;
}
return length - remaining;
}
/*
* return true if there is a token from the buffer, or null if it is
* exhausted.
*/
private boolean incrementTokenBuffer() {
int start = breaker.current();
assert start != BreakIterator.DONE;
// find the next set of boundaries, skipping over non-tokens (rule status 0)
int end = breaker.next();
while (end != BreakIterator.DONE && breaker.getRuleStatus() == 0) {
start = end;
end = breaker.next();
}
if (end == BreakIterator.DONE) {
return false; // BreakIterator exhausted
}
termAtt.copyBuffer(buffer, start, end - start);
offsetAtt.setOffset(correctOffset(offset + start), correctOffset(offset + end));
typeAtt.setType(config.getType(breaker.getScriptCode(), breaker.getRuleStatus()));
scriptAtt.setCode(breaker.getScriptCode());
return true;
}
}