public NodePattern getNodePattern(String name) {
Object obj = variables.get(name);
if (obj != null) {
if (obj instanceof SequencePattern) {
SequencePattern seqPattern = (SequencePattern) obj;
if (seqPattern.getPatternExpr() instanceof SequencePattern.NodePatternExpr) {
return ((SequencePattern.NodePatternExpr) seqPattern.getPatternExpr()).nodePattern;
} else {
throw new Error(
"Invalid node pattern class: "
+ seqPattern.getPatternExpr().getClass()
+ " for variable "
+ name);
}
} else if (obj instanceof SequencePattern.NodePatternExpr) {
SequencePattern.NodePatternExpr pe = (SequencePattern.NodePatternExpr) obj;
return pe.nodePattern;
} else if (obj instanceof NodePattern) {
return (NodePattern) obj;
} else if (obj instanceof String) {
try {
SequencePattern.NodePatternExpr pe =
(SequencePattern.NodePatternExpr) parser.parseNode(this, (String) obj);
return pe.nodePattern;
} catch (Exception pex) {
throw new RuntimeException("Error parsing " + obj + " to node pattern", pex);
}
} else {
throw new Error(
"Invalid node pattern variable class: " + obj.getClass() + " for variable " + name);
}
}
return null;
}
public SequencePattern.PatternExpr getSequencePatternExpr(String name, boolean copy) {
Object obj = variables.get(name);
if (obj != null) {
if (obj instanceof SequencePattern) {
SequencePattern seqPattern = (SequencePattern) obj;
return seqPattern.getPatternExpr();
} else if (obj instanceof SequencePattern.PatternExpr) {
SequencePattern.PatternExpr pe = (SequencePattern.PatternExpr) obj;
return (copy) ? pe.copy() : pe;
} else if (obj instanceof NodePattern) {
return new SequencePattern.NodePatternExpr((NodePattern) obj);
} else if (obj instanceof String) {
try {
return parser.parseSequence(this, (String) obj);
} catch (Exception pex) {
throw new RuntimeException("Error parsing " + obj + " to sequence pattern", pex);
}
} else {
throw new Error("Invalid sequence pattern variable class: " + obj.getClass());
}
}
return null;
}
/**
* Returns a List of Lists where each element is built from a run of Words in the input Document.
* Specifically, reads through each word in the input document and breaks off a sentence after
* finding a valid sentence boundary token or end of file. Note that for this to work, the words
* in the input document must have been tokenized with a tokenizer that makes sentence boundary
* tokens their own tokens (e.g., {@link PTBTokenizer}).
*
* @param words A list of already tokenized words (must implement HasWord or be a String).
* @return A list of sentences.
* @see #WordToSentenceProcessor(String, String, Set, Set, String, NewlineIsSentenceBreak,
* SequencePattern, Set, boolean, boolean)
*/
public List<List<IN>> wordsToSentences(List<? extends IN> words) {
IdentityHashMap<Object, Boolean> isSentenceBoundary =
null; // is null unless used by sentenceBoundaryMultiTokenPattern
if (sentenceBoundaryMultiTokenPattern != null) {
// Do initial pass using tokensregex to identify multi token patterns that need to be matched
// and add the last token to our table of sentence boundary tokens
isSentenceBoundary = new IdentityHashMap<>();
SequenceMatcher<? super IN> matcher = sentenceBoundaryMultiTokenPattern.getMatcher(words);
while (matcher.find()) {
List nodes = matcher.groupNodes();
if (nodes != null && !nodes.isEmpty()) {
isSentenceBoundary.put(nodes.get(nodes.size() - 1), true);
}
}
}
// Split tokens into sentences!!!
List<List<IN>> sentences = Generics.newArrayList();
List<IN> currentSentence = new ArrayList<>();
List<IN> lastSentence = null;
boolean insideRegion = false;
boolean inWaitForForcedEnd = false;
boolean lastTokenWasNewline = false;
for (IN o : words) {
String word = getString(o);
boolean forcedEnd = isForcedEndToken(o);
boolean inMultiTokenExpr = false;
boolean discardToken = false;
if (o instanceof CoreMap) {
// Hacky stuff to ensure sentence breaks do not happen in certain cases
CoreMap cm = (CoreMap) o;
Boolean forcedUntilEndValue =
cm.get(CoreAnnotations.ForcedSentenceUntilEndAnnotation.class);
if (!forcedEnd) {
if (forcedUntilEndValue != null && forcedUntilEndValue) inWaitForForcedEnd = true;
else {
MultiTokenTag mt = cm.get(CoreAnnotations.MentionTokenAnnotation.class);
if (mt != null && !mt.isEnd()) {
// In the middle of a multi token mention, make sure sentence is not ended here
inMultiTokenExpr = true;
}
}
}
}
if (tokenPatternsToDiscard != null) {
discardToken = matchesTokenPatternsToDiscard(word);
}
if (sentenceRegionBeginPattern != null && !insideRegion) {
if (DEBUG) {
log.info("Word is " + word + "; outside region; deleted");
}
if (sentenceRegionBeginPattern.matcher(word).matches()) {
insideRegion = true;
if (DEBUG) {
log.info(" entering region");
}
}
lastTokenWasNewline = false;
continue;
}
if (lastSentence != null
&& currentSentence.isEmpty()
&& sentenceBoundaryFollowersPattern.matcher(word).matches()) {
if (!discardToken) {
lastSentence.add(o);
}
if (DEBUG) {
log.info("Word is " + word + (discardToken ? "discarded" : " added to last sentence"));
}
lastTokenWasNewline = false;
continue;
}
boolean newSent = false;
String debugText = (discardToken) ? "discarded" : "added to current";
if (inWaitForForcedEnd && !forcedEnd) {
if (!discardToken) currentSentence.add(o);
if (DEBUG) {
log.info("Word is " + word + "; is in wait for forced end; " + debugText);
}
} else if (inMultiTokenExpr && !forcedEnd) {
if (!discardToken) currentSentence.add(o);
if (DEBUG) {
log.info("Word is " + word + "; is in multi token expr; " + debugText);
}
} else if (sentenceBoundaryToDiscard.contains(word)) {
if (newlineIsSentenceBreak == NewlineIsSentenceBreak.ALWAYS) {
newSent = true;
} else if (newlineIsSentenceBreak == NewlineIsSentenceBreak.TWO_CONSECUTIVE) {
if (lastTokenWasNewline) {
newSent = true;
}
}
lastTokenWasNewline = true;
if (DEBUG) {
log.info("Word is " + word + " discarded sentence boundary");
}
} else {
lastTokenWasNewline = false;
Boolean isb;
if (xmlBreakElementsToDiscard != null && matchesXmlBreakElementToDiscard(word)) {
newSent = true;
if (DEBUG) {
log.info("Word is " + word + "; is XML break element; discarded");
}
} else if (sentenceRegionEndPattern != null
&& sentenceRegionEndPattern.matcher(word).matches()) {
insideRegion = false;
newSent = true;
// Marked sentence boundaries
} else if ((isSentenceBoundary != null)
&& ((isb = isSentenceBoundary.get(o)) != null)
&& isb) {
if (!discardToken) currentSentence.add(o);
if (DEBUG) {
log.info(
"Word is "
+ word
+ "; is sentence boundary (matched multi-token pattern); "
+ debugText);
}
newSent = true;
} else if (sentenceBoundaryTokenPattern.matcher(word).matches()) {
if (!discardToken) currentSentence.add(o);
if (DEBUG) {
log.info("Word is " + word + "; is sentence boundary; " + debugText);
}
newSent = true;
} else if (forcedEnd) {
if (!discardToken) currentSentence.add(o);
inWaitForForcedEnd = false;
newSent = true;
if (DEBUG) {
log.info("Word is " + word + "; annotated to be the end of a sentence; " + debugText);
}
} else {
if (!discardToken) currentSentence.add(o);
if (DEBUG) {
log.info("Word is " + word + "; " + debugText);
}
}
}
if (newSent && (!currentSentence.isEmpty() || allowEmptySentences)) {
if (DEBUG) {
log.info(" beginning new sentence");
}
sentences.add(currentSentence);
// adds this sentence now that it's complete
lastSentence = currentSentence;
currentSentence = new ArrayList<>(); // clears the current sentence
}
}
// add any words at the end, even if there isn't a sentence
// terminator at the end of file
if (!currentSentence.isEmpty()) {
sentences.add(currentSentence); // adds last sentence
}
return sentences;
}
public void bind(String name, SequencePattern pattern) {
bind(name, pattern.getPatternExpr());
}
