public override Query Rewrite(IndexReader reader, MultiTermQuery query)
{
FilteredTermEnum enumerator = query.GetEnum(reader);
BooleanQuery result = new BooleanQuery(true);
int count = 0;
try
{
do
{
Term t = enumerator.Term;
if (t != null)
{
TermQuery tq = new TermQuery(t); // found a match
tq.Boost = query.Boost * enumerator.Difference(); // set the boost
result.Add(tq, Occur.SHOULD); // add to query
count++;
}
}while (enumerator.Next());
}
finally
{
enumerator.Close();
}
query.IncTotalNumberOfTerms(count);
return(result);
}
private int CountTerms(MultiTermQuery q)
{
Terms terms = MultiFields.GetTerms(reader, q.Field);
if (terms == null)
{
return(0);
}
TermsEnum termEnum = q.GetTermsEnum(terms);
Assert.IsNotNull(termEnum);
int count = 0;
BytesRef cur, last = null;
while ((cur = termEnum.Next()) != null)
{
count++;
if (last != null)
{
Assert.IsTrue(last.CompareTo(cur) < 0);
}
last = BytesRef.DeepCopyOf(cur);
}
// LUCENE-3314: the results after next() already returned null are undefined,
// Assert.IsNull(termEnum.Next());
return(count);
}
public override Query Rewrite(IndexReader reader, MultiTermQuery query)
{
Query result = new ConstantScoreQuery(new MultiTermQueryFieldCacheWrapperFilter(query));
result.Boost = query.Boost;
return(result);
}
public override Query Rewrite(IndexReader reader, MultiTermQuery query)
{
Query result = new ConstantScoreQuery(new MultiTermQueryWrapperFilter(query));
result.SetBoost(query.GetBoost());
return(result);
}
public override bool Equals(object obj)
{
if (this == obj)
{
return(true);
}
if (obj == null)
{
return(false);
}
if (this.GetType() != obj.GetType())
{
return(false);
}
MultiTermQuery other = (MultiTermQuery)obj;
if (Number.SingleToInt32Bits(Boost) != Number.SingleToInt32Bits(other.Boost))
{
return(false);
}
if (!m_rewriteMethod.Equals(other.m_rewriteMethod))
{
return(false);
}
return(other.m_field == null ? m_field == null : other.m_field.Equals(m_field, StringComparison.Ordinal));
}
public override Query Rewrite(IndexReader reader, MultiTermQuery query)
{
// Get the enum and start visiting terms. If we
// exhaust the enum before hitting either of the
// cutoffs, we use ConstantBooleanQueryRewrite; else,
// ConstantFilterRewrite:
System.Collections.ArrayList pendingTerms = new System.Collections.ArrayList();
int docCountCutoff = (int)((docCountPercent / 100.0) * reader.MaxDoc());
int termCountLimit = System.Math.Min(BooleanQuery.GetMaxClauseCount(), termCountCutoff);
int docVisitCount = 0;
FilteredTermEnum enumerator = query.GetEnum(reader);
try
{
while (true)
{
Term t = enumerator.Term();
if (t != null)
{
pendingTerms.Add(t);
// Loading the TermInfo from the terms dict here
// should not be costly, because 1) the
// query/filter will load the TermInfo when it
// runs, and 2) the terms dict has a cache:
docVisitCount += reader.DocFreq(t);
}
if (pendingTerms.Count >= termCountLimit || docVisitCount >= docCountCutoff)
{
// Too many terms -- make a filter.
Query result = new ConstantScoreQuery(new MultiTermQueryWrapperFilter(query));
result.SetBoost(query.GetBoost());
return(result);
}
else if (!enumerator.Next())
{
// Enumeration is done, and we hit a small
// enough number of terms & docs -- just make a
// BooleanQuery, now
System.Collections.IEnumerator it = pendingTerms.GetEnumerator();
BooleanQuery bq = new BooleanQuery(true);
while (it.MoveNext())
{
TermQuery tq = new TermQuery((Term)it.Current);
bq.Add(tq, BooleanClause.Occur.SHOULD);
}
// Strip scores
Query result = new ConstantScoreQuery(new QueryWrapperFilter(bq));
result.SetBoost(query.GetBoost());
query.IncTotalNumberOfTerms(pendingTerms.Count);
return(result);
}
}
}
finally
{
enumerator.Close();
}
}
public override Query Rewrite(IndexReader reader, MultiTermQuery query)
{
var result = GetTopLevelQuery();
ParallelArraysTermCollector col = new ParallelArraysTermCollector(this);
CollectTerms(reader, query, col);
int size = col.terms.Count;
if (size > 0)
{
int[] sort = col.terms.Sort(col.termsEnum.Comparer);
float[] boost = col.array.boost;
TermContext[] termStates = col.array.termState;
for (int i = 0; i < size; i++)
{
int pos = sort[i];
Term term = new Term(query.Field, col.terms.Get(pos, new BytesRef()));
if (Debugging.AssertsEnabled)
{
Debugging.Assert(reader.DocFreq(term) == termStates[pos].DocFreq);
}
AddClause(result, term, termStates[pos].DocFreq, query.Boost * boost[pos], termStates[pos]);
}
}
return(result);
}
//@Override
public override bool Equals(System.Object obj)
{
if (this == obj)
{
return(true);
}
if (obj == null)
{
return(false);
}
if (GetType() != obj.GetType())
{
return(false);
}
MultiTermQuery other = (MultiTermQuery)obj;
if (System.Convert.ToInt32(Boost) != System.Convert.ToInt32(other.Boost))
{
return(false);
}
if (!internalRewriteMethod.Equals(other.internalRewriteMethod))
{
return(false);
}
return(true);
}
public override Query Rewrite(IndexReader reader, MultiTermQuery query, IState state)
{
// strip the scores off
Query result = new ConstantScoreQuery(new QueryWrapperFilter(base.Rewrite(reader, query, state)));
result.Boost = query.Boost;
return(result);
}
public override Query Rewrite(IndexReader reader, MultiTermQuery query)
{
// strip the scores off
Query result = new ConstantScoreQuery(new QueryWrapperFilter(base.Rewrite(reader, query)));
result.SetBoost(query.GetBoost());
return(result);
}
public override Query Rewrite(IndexReader reader, MultiTermQuery query)
{
BooleanQuery bq = (BooleanQuery)SCORING_BOOLEAN_QUERY_REWRITE.Rewrite(reader, query);
// strip the scores off
Query result = new ConstantScoreQuery(bq);
result.Boost = query.Boost;
return(result);
}
internal void CollectTerms(IndexReader reader, MultiTermQuery query, TermCollector collector)
{
IndexReaderContext topReaderContext = reader.Context;
IComparer <BytesRef> lastTermComp = null;
foreach (AtomicReaderContext context in topReaderContext.Leaves)
{
Fields fields = context.AtomicReader.Fields;
if (fields == null)
{
// reader has no fields
continue;
}
Terms terms = fields.GetTerms(query.m_field);
if (terms == null)
{
// field does not exist
continue;
}
TermsEnum termsEnum = GetTermsEnum(query, terms, collector.Attributes);
if (Debugging.AssertsEnabled)
{
Debugging.Assert(termsEnum != null);
}
if (termsEnum == TermsEnum.EMPTY)
{
continue;
}
// Check comparer compatibility:
IComparer <BytesRef> newTermComp = termsEnum.Comparer;
if (lastTermComp != null && newTermComp != null && newTermComp != lastTermComp)
{
throw new Exception("term comparer should not change between segments: " + lastTermComp + " != " + newTermComp);
}
lastTermComp = newTermComp;
collector.SetReaderContext(topReaderContext, context);
collector.SetNextEnum(termsEnum);
BytesRef bytes;
while ((bytes = termsEnum.Next()) != null)
{
if (!collector.Collect(bytes))
{
return; // interrupt whole term collection, so also don't iterate other subReaders
}
}
}
}
private void CheckNoMaxClauseLimitation(MultiTermQuery.RewriteMethod method)
{
int savedMaxClauseCount = BooleanQuery.MaxClauseCount;
BooleanQuery.MaxClauseCount = 3;
MultiTermQuery mtq = TermRangeQuery.NewStringRange("data", "2", "7", true, true);
mtq.MultiTermRewriteMethod = (method);
try
{
MultiSearcherDupls.Rewrite(mtq);
}
finally
{
BooleanQuery.MaxClauseCount = savedMaxClauseCount;
}
}
public virtual void Generate(MultiTermQuery query, IndexReader reader, TermEnum enumerator)
{
int[] docs = new int[32];
int[] freqs = new int[32];
TermDocs termDocs = reader.TermDocs();
try
{
int termCount = 0;
do
{
Term term = enumerator.Term();
if (term == null)
{
break;
}
termCount++;
termDocs.Seek(term);
while (true)
{
int count = termDocs.Read(docs, freqs);
if (count != 0)
{
for (int i = 0; i < count; i++)
{
HandleDoc(docs[i]);
}
}
else
{
break;
}
}
}while (enumerator.Next());
query.IncTotalNumberOfTerms(termCount); // {{Aroush-2.9}} is the use of 'temp' as is right?
}
finally
{
termDocs.Close();
}
}
public override bool Equals(object o)
{
if (this == o)
{
return(true);
}
if (!(o is MultiTermQuery))
{
return(false);
}
MultiTermQuery multiTermQuery = (MultiTermQuery)o;
if (!term.Equals(multiTermQuery.term))
{
return(false);
}
return(GetBoost() == multiTermQuery.GetBoost());
}
public override Query Rewrite(IndexReader reader, MultiTermQuery query)
{
int maxSize = Math.Min(size, MaxSize);
JCG.PriorityQueue <ScoreTerm> stQueue = new JCG.PriorityQueue <ScoreTerm>();
CollectTerms(reader, query, new TermCollectorAnonymousInnerClassHelper(this, maxSize, stQueue));
var q = GetTopLevelQuery();
ScoreTerm[] scoreTerms = stQueue.ToArray(/*new ScoreTerm[stQueue.size()]*/);
ArrayUtil.TimSort(scoreTerms, scoreTermSortByTermComp);
foreach (ScoreTerm st in scoreTerms)
{
Term term = new Term(query.m_field, st.Bytes);
Debug.Assert(reader.DocFreq(term) == st.TermState.DocFreq, "reader DF is " + reader.DocFreq(term) + " vs " + st.TermState.DocFreq + " term=" + term);
AddClause(q, term, st.TermState.DocFreq, query.Boost * st.Boost, st.TermState); // add to query
}
return(q);
}
public override Query Rewrite(IndexReader reader, MultiTermQuery query)
{
// Get the enum and start visiting terms. If we
// exhaust the enum before hitting either of the
// cutoffs, we use ConstantBooleanQueryRewrite; else,
// ConstantFilterRewrite:
int docCountCutoff = (int)((docCountPercent / 100.0) * reader.MaxDoc);
int termCountLimit = Math.Min(BooleanQuery.MaxClauseCount, termCountCutoff);
CutOffTermCollector col = new CutOffTermCollector(docCountCutoff, termCountLimit);
CollectTerms(reader, query, col);
int size = col.pendingTerms.Count;
if (col.hasCutOff)
{
return(MultiTermQuery.CONSTANT_SCORE_FILTER_REWRITE.Rewrite(reader, query));
}
else
{
BooleanQuery bq = GetTopLevelQuery();
if (size > 0)
{
BytesRefHash pendingTerms = col.pendingTerms;
int[] sort = pendingTerms.Sort(col.termsEnum.Comparer);
for (int i = 0; i < size; i++)
{
int pos = sort[i];
// docFreq is not used for constant score here, we pass 1
// to explicitely set a fake value, so it's not calculated
AddClause(bq, new Term(query.m_field, pendingTerms.Get(pos, new BytesRef())), 1, 1.0f, col.array.termState[pos]);
}
}
// Strip scores
Query result = new ConstantScoreQuery(bq);
result.Boost = query.Boost;
return(result);
}
}
private void CheckDuplicateTerms(MultiTermQuery.RewriteMethod method)
{
MultiTermQuery mtq = TermRangeQuery.NewStringRange("data", "2", "7", true, true);
mtq.MultiTermRewriteMethod = (method);
Query q1 = Searcher.Rewrite(mtq);
Query q2 = MultiSearcher.Rewrite(mtq);
Query q3 = MultiSearcherDupls.Rewrite(mtq);
if (VERBOSE)
{
Console.WriteLine();
Console.WriteLine("single segment: " + q1);
Console.WriteLine("multi segment: " + q2);
Console.WriteLine("multi segment with duplicates: " + q3);
}
Assert.IsTrue(q1.Equals(q2), "The multi-segment case must produce same rewritten query");
Assert.IsTrue(q1.Equals(q3), "The multi-segment case with duplicates must produce same rewritten query");
CheckBooleanQueryOrder(q1);
CheckBooleanQueryOrder(q2);
CheckBooleanQueryOrder(q3);
}
public override Query Rewrite(IndexReader reader, MultiTermQuery query)
{
int maxSize = Math.Min(size, MaxSize);
JCG.PriorityQueue <ScoreTerm> stQueue = new JCG.PriorityQueue <ScoreTerm>();
CollectTerms(reader, query, new TermCollectorAnonymousClass(maxSize, stQueue));
var q = GetTopLevelQuery();
ScoreTerm[] scoreTerms = stQueue.ToArray(/*new ScoreTerm[stQueue.Count]*/);
ArrayUtil.TimSort(scoreTerms, scoreTermSortByTermComp);
foreach (ScoreTerm st in scoreTerms)
{
Term term = new Term(query.m_field, st.Bytes);
if (Debugging.AssertsEnabled)
{
Debugging.Assert(reader.DocFreq(term) == st.TermState.DocFreq, "reader DF is {0} vs {1} term={2}", reader.DocFreq(term), st.TermState.DocFreq, term);
}
AddClause(q, term, st.TermState.DocFreq, query.Boost * st.Boost, st.TermState); // add to query
}
return(q);
}
private void CheckMaxClauseLimitation(MultiTermQuery.RewriteMethod method, [CallerMemberName] string memberName = "")
{
int savedMaxClauseCount = BooleanQuery.MaxClauseCount;
BooleanQuery.MaxClauseCount = 3;
MultiTermQuery mtq = TermRangeQuery.NewStringRange("data", "2", "7", true, true);
mtq.MultiTermRewriteMethod = (method);
try
{
MultiSearcherDupls.Rewrite(mtq);
Assert.Fail("Should throw BooleanQuery.TooManyClauses");
}
catch (BooleanQuery.TooManyClausesException e)
{
// Maybe remove this assert in later versions, when internal API changes:
Assert.AreEqual("CheckMaxClauseCount", new StackTrace(e, false).GetFrames()[0].GetMethod().Name); //, "Should throw BooleanQuery.TooManyClauses with a stacktrace containing checkMaxClauseCount()");
}
finally
{
BooleanQuery.MaxClauseCount = savedMaxClauseCount;
}
}
private void CheckBoosts(MultiTermQuery.RewriteMethod method)
{
MultiTermQuery mtq = new MultiTermQueryAnonymousInnerClassHelper(this);
mtq.SetRewriteMethod(method);
Query q1 = Searcher.Rewrite(mtq);
Query q2 = MultiSearcher.Rewrite(mtq);
Query q3 = MultiSearcherDupls.Rewrite(mtq);
if (VERBOSE)
{
Console.WriteLine();
Console.WriteLine("single segment: " + q1);
Console.WriteLine("multi segment: " + q2);
Console.WriteLine("multi segment with duplicates: " + q3);
}
Assert.IsTrue(q1.Equals(q2), "The multi-segment case must produce same rewritten query");
Assert.IsTrue(q1.Equals(q3), "The multi-segment case with duplicates must produce same rewritten query");
CheckBooleanQueryBoosts((BooleanQuery)q1);
CheckBooleanQueryBoosts((BooleanQuery)q2);
CheckBooleanQueryBoosts((BooleanQuery)q3);
}
private void CheckDuplicateTerms(MultiTermQuery.RewriteMethod method)
{
MultiTermQuery mtq = TermRangeQuery.NewStringRange("data", "2", "7", true, true);
mtq.SetRewriteMethod(method);
Query q1 = Searcher.Rewrite(mtq);
Query q2 = MultiSearcher.Rewrite(mtq);
Query q3 = MultiSearcherDupls.Rewrite(mtq);
if (VERBOSE)
{
Console.WriteLine();
Console.WriteLine("single segment: " + q1);
Console.WriteLine("multi segment: " + q2);
Console.WriteLine("multi segment with duplicates: " + q3);
}
Assert.IsTrue(q1.Equals(q2), "The multi-segment case must produce same rewritten query");
Assert.IsTrue(q1.Equals(q3), "The multi-segment case with duplicates must produce same rewritten query");
CheckBooleanQueryOrder(q1);
CheckBooleanQueryOrder(q2);
CheckBooleanQueryOrder(q3);
}
private MultiTermQuery VisitNumericRangeQuery(MultiTermQuery n)
{
if (n is NumericRangeQuery<double>)
{
var q = (NumericRangeQuery<double>)n;
return NumericRangeQuery.NewDoubleRange(VisitField(q.Field), q.Min, q.Max, q.IncludesMin, q.IncludesMax);
}
else if (n is NumericRangeQuery<float>)
{
var q = (NumericRangeQuery<float>)n;
return NumericRangeQuery.NewFloatRange(VisitField(q.Field), q.Min, q.Max, q.IncludesMin, q.IncludesMax);
}
else if (n is NumericRangeQuery<int>)
{
var q = (NumericRangeQuery<int>)n;
return NumericRangeQuery.NewIntRange(VisitField(q.Field), q.Min, q.Max, q.IncludesMin, q.IncludesMax);
}
else if (n is NumericRangeQuery<long>)
{
var q = (NumericRangeQuery<long>)n;
return NumericRangeQuery.NewLongRange(VisitField(q.Field), q.Min, q.Max, q.IncludesMin, q.IncludesMax);
}
else
{
throw new NotSupportedException(string.Format("Numeric range of type '{0}' is not supported", n.GetType().FullName));
}
}
private static void VisitQuery(MultiTermQuery query, AzureQueryLogger.IndentedTextWriter writer)
{
writer.WriteLine("TotalNumberOfTerms: {0}", (object)query.TotalNumberOfTerms);
if (query is FuzzyQuery)
AzureQueryLogger.MultiTermQuery((FuzzyQuery)query, writer);
else if (query is PrefixQuery)
AzureQueryLogger.MultiTermQuery((PrefixQuery)query, writer);
else if (query is TermRangeQuery)
AzureQueryLogger.MultiTermQuery((TermRangeQuery)query, writer);
else if (query is WildcardQuery)
{
AzureQueryLogger.MultiTermQuery((WildcardQuery)query, writer);
}
else
{
if (!(query is RegexQuery))
return;
AzureQueryLogger.MultiTermQuery((RegexQuery)query, writer);
}
}
public override Query Rewrite(IndexReader reader, MultiTermQuery query)
{
Query result = new ConstantScoreQuery(new MultiTermQueryWrapperFilter(query));
result.SetBoost(query.GetBoost());
return result;
}
public override Query Rewrite(IndexReader reader, MultiTermQuery query)
{
Query result = new ConstantScoreQuery(new MultiTermQueryDocTermOrdsWrapperFilter(query));
result.Boost = query.Boost;
return result;
}
private int CountTerms(MultiTermQuery q)
{
Terms terms = MultiFields.GetTerms(Reader, q.Field);
if (terms == null)
{
return 0;
}
TermsEnum termEnum = q.GetTermsEnum(terms);
Assert.IsNotNull(termEnum);
int count = 0;
BytesRef cur, last = null;
while ((cur = termEnum.Next()) != null)
{
count++;
if (last != null)
{
Assert.IsTrue(last.CompareTo(cur) < 0);
}
last = BytesRef.DeepCopyOf(cur);
}
// LUCENE-3314: the results after next() already returned null are undefined,
// Assert.IsNull(termEnum.Next());
return count;
}
/// <summary>
/// Wrap a <see cref="MultiTermQuery"/> as a <see cref="Filter"/>.
/// </summary>
protected internal MultiTermQueryDocTermOrdsWrapperFilter(MultiTermQuery query)
{
this.m_query = query;
}
public static Query Csrq(System.String f, System.String l, System.String h, bool il, bool ih, MultiTermQuery.RewriteMethod method)
{
TermRangeQuery query = new TermRangeQuery(f, l, h, il, ih);
query.SetRewriteMethod(method);
return query;
}
private void CheckMaxClauseLimitation(MultiTermQuery.RewriteMethod method)
{
int savedMaxClauseCount = BooleanQuery.MaxClauseCount;
BooleanQuery.MaxClauseCount = 3;
MultiTermQuery mtq = TermRangeQuery.NewStringRange("data", "2", "7", true, true);
mtq.SetRewriteMethod(method);
try
{
MultiSearcherDupls.Rewrite(mtq);
Assert.Fail("Should throw BooleanQuery.TooManyClauses");
}
catch (BooleanQuery.TooManyClauses e)
{
// Maybe remove this assert in later versions, when internal API changes:
Assert.AreEqual("CheckMaxClauseCount", new StackTrace(e).GetFrames()[0].GetMethod().Name, "Should throw BooleanQuery.TooManyClauses with a stacktrace containing checkMaxClauseCount()");
}
finally
{
BooleanQuery.MaxClauseCount = savedMaxClauseCount;
}
}
public abstract Query Rewrite(IndexReader reader, MultiTermQuery query);
/// <summary> Wrap a {@link MultiTermQuery} as a Filter.</summary>
protected internal MultiTermQueryWrapperFilter(MultiTermQuery query)
{
this.query = query;
}
public abstract Query Rewrite(IndexReader reader, MultiTermQuery query, IState state);
public override Query Rewrite(IndexReader reader, MultiTermQuery query)
{
Query result = new ConstantScoreQuery(new MultiTermQueryDocTermOrdsWrapperFilter(query));
result.Boost = query.Boost;
return result;
}
private void CheckNoMaxClauseLimitation(MultiTermQuery.RewriteMethod method)
{
int savedMaxClauseCount = BooleanQuery.MaxClauseCount;
BooleanQuery.MaxClauseCount = 3;
MultiTermQuery mtq = TermRangeQuery.NewStringRange("data", "2", "7", true, true);
mtq.SetRewriteMethod(method);
try
{
MultiSearcherDupls.Rewrite(mtq);
}
finally
{
BooleanQuery.MaxClauseCount = savedMaxClauseCount;
}
}
/// <summary>
/// Wrap a <see cref="MultiTermQuery"/> as a Filter.
/// </summary>
protected internal MultiTermQueryFieldCacheWrapperFilter(MultiTermQuery query)
{
this.m_query = query;
}
/// <summary> Wrap a {@link MultiTermQuery} as a Filter.</summary>
protected internal MultiTermQueryWrapperFilter(MultiTermQuery query)
{
this.query = query;
}
public override Query Rewrite(IndexReader reader, MultiTermQuery query)
{
FilteredTermEnum enumerator = query.GetEnum(reader);
BooleanQuery result = new BooleanQuery(true);
int count = 0;
try
{
do
{
Term t = enumerator.Term();
if (t != null)
{
TermQuery tq = new TermQuery(t); // found a match
tq.SetBoost(query.GetBoost() * enumerator.Difference()); // set the boost
result.Add(tq, BooleanClause.Occur.SHOULD); // add to query
count++;
}
}
while (enumerator.Next());
}
finally
{
enumerator.Close();
}
query.IncTotalNumberOfTerms(count);
return result;
}
/// <summary>
/// Wrap a <seealso cref="MultiTermQuery"/> as a Filter.
/// </summary>
protected internal MultiTermQueryFieldCacheWrapperFilter(MultiTermQuery query)
{
this.Query = query;
}
public override Query Rewrite(IndexReader reader, MultiTermQuery query)
{
// strip the scores off
Query result = new ConstantScoreQuery(new QueryWrapperFilter(base.Rewrite(reader, query)));
result.SetBoost(query.GetBoost());
return result;
}
public override Query Rewrite(IndexReader reader, MultiTermQuery query)
{
// Get the enum and start visiting terms. If we
// exhaust the enum before hitting either of the
// cutoffs, we use ConstantBooleanQueryRewrite; else,
// ConstantFilterRewrite:
System.Collections.ArrayList pendingTerms = new System.Collections.ArrayList();
int docCountCutoff = (int) ((docCountPercent / 100.0) * reader.MaxDoc());
int termCountLimit = System.Math.Min(BooleanQuery.GetMaxClauseCount(), termCountCutoff);
int docVisitCount = 0;
FilteredTermEnum enumerator = query.GetEnum(reader);
try
{
while (true)
{
Term t = enumerator.Term();
if (t != null)
{
pendingTerms.Add(t);
// Loading the TermInfo from the terms dict here
// should not be costly, because 1) the
// query/filter will load the TermInfo when it
// runs, and 2) the terms dict has a cache:
docVisitCount += reader.DocFreq(t);
}
if (pendingTerms.Count >= termCountLimit || docVisitCount >= docCountCutoff)
{
// Too many terms -- make a filter.
Query result = new ConstantScoreQuery(new MultiTermQueryWrapperFilter(query));
result.SetBoost(query.GetBoost());
return result;
}
else if (!enumerator.Next())
{
// Enumeration is done, and we hit a small
// enough number of terms & docs -- just make a
// BooleanQuery, now
System.Collections.IEnumerator it = pendingTerms.GetEnumerator();
BooleanQuery bq = new BooleanQuery(true);
while (it.MoveNext())
{
TermQuery tq = new TermQuery((Term) it.Current);
bq.Add(tq, BooleanClause.Occur.SHOULD);
}
// Strip scores
Query result = new ConstantScoreQuery(new QueryWrapperFilter(bq));
result.SetBoost(query.GetBoost());
query.IncTotalNumberOfTerms(pendingTerms.Count);
return result;
}
}
}
finally
{
enumerator.Close();
}
}
public abstract Query Rewrite(IndexReader reader, MultiTermQuery query);
public virtual void Generate(MultiTermQuery query, IndexReader reader, TermEnum enumerator)
{
int[] docs = new int[32];
int[] freqs = new int[32];
TermDocs termDocs = reader.TermDocs();
try
{
int termCount = 0;
do
{
Term term = enumerator.Term();
if (term == null)
break;
termCount++;
termDocs.Seek(term);
while (true)
{
int count = termDocs.Read(docs, freqs);
if (count != 0)
{
for (int i = 0; i < count; i++)
{
HandleDoc(docs[i]);
}
}
else
{
break;
}
}
}
while (enumerator.Next());
query.IncTotalNumberOfTerms(termCount); // {{Aroush-2.9}} is the use of 'temp' as is right?
}
finally
{
termDocs.Close();
}
}
/// <summary>
/// Wrap a <seealso cref="MultiTermQuery"/> as a Filter.
/// </summary>
protected internal MultiTermQueryDocTermOrdsWrapperFilter(MultiTermQuery query)
{
this.Query = query;
}
/// <summary>
/// Returns the <see cref="MultiTermQuery"/>s <see cref="TermsEnum"/> </summary>
/// <seealso cref="MultiTermQuery.GetTermsEnum(Terms, AttributeSource)"/>
protected virtual TermsEnum GetTermsEnum(MultiTermQuery query, Terms terms, AttributeSource atts)
{
return(query.GetTermsEnum(terms, atts)); // allow RewriteMethod subclasses to pull a TermsEnum from the MTQ
}
public static Query Csrq(string f, string l, string h, bool il, bool ih, MultiTermQuery.RewriteMethod method)
{
TermRangeQuery query = TermRangeQuery.NewStringRange(f, l, h, il, ih);
query.SetRewriteMethod(method);
if (VERBOSE)
{
Console.WriteLine("TEST: query=" + query + " method=" + method);
}
return query;
}
