internal void Seek(long pointer, int p, Term t, TermInfo ti)
{
input.Seek(pointer);
position = p;
termBuffer.Set(t);
prevBuffer.Reset();
termInfo.Set(ti);
}
internal void Seek(long pointer, long p, Term t, TermInfo ti, IState state)
{
input.Seek(pointer, state);
position = p;
termBuffer.Set(t);
prevBuffer.Reset();
termInfo.Set(ti);
}
private TermInfo termInfo = new TermInfo(); // minimize consing
/// <summary>Merge one term found in one or more segments. The array <code>smis</code>
/// contains segments that are positioned at the same term. <code>N</code>
/// is the number of cells in the array actually occupied.
///
/// </summary>
/// <param name="smis">array of segments
/// </param>
/// <param name="n">number of cells in the array actually occupied
/// </param>
private void MergeTermInfo(SegmentMergeInfo[] smis, int n)
{
long freqPointer = freqOutput.GetFilePointer();
long proxPointer = proxOutput.GetFilePointer();
int df = AppendPostings(smis, n); // append posting data
long skipPointer = WriteSkip();
if (df > 0)
{
// add an entry to the dictionary with pointers to prox and freq files
termInfo.Set(df, freqPointer, proxPointer, (int)(skipPointer - freqPointer));
termInfosWriter.Add(smis[0].term, termInfo);
}
}
/// <summary>Called when we are done adding docs to this term </summary>
internal override void Finish()
{
long skipPointer = skipListWriter.WriteSkip(out_Renamed);
// TODO: this is abstraction violation -- we should not
// peek up into parents terms encoding format
termInfo.Set(df, parent.freqStart, parent.proxStart, (int)(skipPointer - parent.freqStart));
// TODO: we could do this incrementally
UnicodeUtil.UTF16toUTF8(parent.currentTerm, parent.currentTermStart, utf8);
if (df > 0)
{
parent.termsOut.Add(fieldInfo.number, utf8.result, utf8.length, termInfo);
}
lastDocID = 0;
df = 0;
}
/// <summary>Adds a new <<fieldNumber, termText>, TermInfo> pair to the set.
/// Term must be lexicographically greater than all previous Terms added.
/// TermInfo pointers must be positive and greater than all previous.
/// </summary>
internal void Add(int fieldNumber, char[] termText, int termTextStart, int termTextLength, TermInfo ti)
{
System.Diagnostics.Debug.Assert(CompareToLastTerm(fieldNumber, termText, termTextStart, termTextLength) < 0 ||
(isIndex && termTextLength == 0 && lastTermTextLength == 0),
"Terms are out of order: field=" + fieldInfos.FieldName(fieldNumber) + "(number " + fieldNumber + ")" +
" lastField=" + fieldInfos.FieldName(lastFieldNumber) + " (number " + lastFieldNumber + ")" +
" text=" + new String(termText, termTextStart, termTextLength) + " lastText=" + new String(lastTermText, 0, lastTermTextLength));
System.Diagnostics.Debug.Assert(ti.freqPointer >= lastTi.freqPointer, "freqPointer out of order (" + ti.freqPointer + " < " + lastTi.freqPointer + ")");
System.Diagnostics.Debug.Assert(ti.proxPointer >= lastTi.proxPointer, "proxPointer out of order (" + ti.proxPointer + " < " + lastTi.proxPointer + ")");
if (!isIndex && size % indexInterval == 0)
{
other.Add(lastFieldNumber, lastTermText, 0, lastTermTextLength, lastTi); // add an index term
}
WriteTerm(fieldNumber, termText, termTextStart, termTextLength); // write term
output.WriteVInt(ti.docFreq); // write doc freq
output.WriteVLong(ti.freqPointer - lastTi.freqPointer); // write pointers
output.WriteVLong(ti.proxPointer - lastTi.proxPointer);
if (ti.docFreq >= skipInterval)
{
output.WriteVInt(ti.skipOffset);
}
if (isIndex)
{
output.WriteVLong(other.output.GetFilePointer() - lastIndexPointer);
lastIndexPointer = other.output.GetFilePointer(); // write pointer
}
if (lastTermText.Length < termTextLength)
{
lastTermText = new char[(int)(termTextLength * 1.25)];
}
Array.Copy(termText, termTextStart, lastTermText, 0, termTextLength);
lastTermTextLength = termTextLength;
lastFieldNumber = fieldNumber;
lastTi.Set(ti);
size++;
}
/// <summary>Adds a new <Term, TermInfo> pair to the set.
/// Term must be lexicographically greater than all previous Terms added.
/// TermInfo pointers must be positive and greater than all previous.
/// </summary>
public /*internal*/ void Add(Term term, TermInfo ti)
{
if (!isIndex && term.CompareTo(lastTerm) <= 0)
{
throw new System.IO.IOException("term out of order");
}
if (ti.freqPointer < lastTi.freqPointer)
{
throw new System.IO.IOException("freqPointer out of order");
}
if (ti.proxPointer < lastTi.proxPointer)
{
throw new System.IO.IOException("proxPointer out of order");
}
if (!isIndex && size % indexInterval == 0)
{
other.Add(lastTerm, lastTi); // add an index term
}
WriteTerm(term); // write term
output.WriteVInt(ti.docFreq); // write doc freq
output.WriteVLong(ti.freqPointer - lastTi.freqPointer); // write pointers
output.WriteVLong(ti.proxPointer - lastTi.proxPointer);
if (ti.docFreq >= skipInterval)
{
output.WriteVInt(ti.skipOffset);
}
if (isIndex)
{
output.WriteVLong(other.output.GetFilePointer() - lastIndexPointer);
lastIndexPointer = other.output.GetFilePointer(); // write pointer
}
lastTi.Set(ti);
size++;
}
/// <summary>Adds a new <fieldNumber, termBytes>, TermInfo> pair to the set.
/// Term must be lexicographically greater than all previous Terms added.
/// TermInfo pointers must be positive and greater than all previous.
/// </summary>
internal void Add(int fieldNumber, byte[] termBytes, int termBytesLength, TermInfo ti)
{
System.Diagnostics.Debug.Assert(CompareToLastTerm(fieldNumber, termBytes, termBytesLength) < 0 ||
(isIndex && termBytesLength == 0 && lastTermBytesLength == 0),
"Terms are out of order: field=" + fieldInfos.FieldName(fieldNumber) + " (number " + fieldNumber + ")" +
" lastField=" + fieldInfos.FieldName(lastFieldNumber) + " (number " + lastFieldNumber + ")" +
" text=" + System.Text.Encoding.UTF8.GetString(termBytes, 0, termBytesLength) + " lastText=" + System.Text.Encoding.UTF8.GetString(lastTermBytes, 0, lastTermBytesLength));
System.Diagnostics.Debug.Assert(ti.freqPointer >= lastTi.freqPointer, "freqPointer out of order (" + ti.freqPointer + " < " + lastTi.freqPointer + ")");
System.Diagnostics.Debug.Assert(ti.proxPointer >= lastTi.proxPointer, "proxPointer out of order (" + ti.proxPointer + " < " + lastTi.proxPointer + ")");
if (!isIndex && size % indexInterval == 0)
{
other.Add(lastFieldNumber, lastTermBytes, lastTermBytesLength, lastTi); // add an index term
}
WriteTerm(fieldNumber, termBytes, termBytesLength); // write term
output.WriteVInt(ti.docFreq); // write doc freq
output.WriteVLong(ti.freqPointer - lastTi.freqPointer); // write pointers
output.WriteVLong(ti.proxPointer - lastTi.proxPointer);
if (ti.docFreq >= skipInterval)
{
output.WriteVInt(ti.skipOffset);
}
if (isIndex)
{
output.WriteVLong(other.output.FilePointer - lastIndexPointer);
lastIndexPointer = other.output.FilePointer; // write pointer
}
lastFieldNumber = fieldNumber;
lastTi.Set(ti);
size++;
}
private void WritePostings(Posting[] postings, System.String segment)
{
IndexOutput freq = null, prox = null;
TermInfosWriter tis = null;
TermVectorsWriter termVectorWriter = null;
try
{
//open files for inverse index storage
freq = directory.CreateOutput(segment + ".frq");
prox = directory.CreateOutput(segment + ".prx");
tis = new TermInfosWriter(directory, segment, fieldInfos, termIndexInterval);
TermInfo ti = new TermInfo();
System.String currentField = null;
for (int i = 0; i < postings.Length; i++)
{
Posting posting = postings[i];
// add an entry to the dictionary with pointers to prox and freq files
ti.Set(1, freq.GetFilePointer(), prox.GetFilePointer(), - 1);
tis.Add(posting.term, ti);
// add an entry to the freq file
int postingFreq = posting.freq;
if (postingFreq == 1)
// optimize freq=1
freq.WriteVInt(1);
// set low bit of doc num.
else
{
freq.WriteVInt(0); // the document number
freq.WriteVInt(postingFreq); // frequency in doc
}
int lastPosition = 0; // write positions
int[] positions = posting.positions;
for (int j = 0; j < postingFreq; j++)
{
// use delta-encoding
int position = positions[j];
prox.WriteVInt(position - lastPosition);
lastPosition = position;
}
// check to see if we switched to a new field
System.String termField = posting.term.Field();
if (currentField != termField)
{
// changing field - see if there is something to save
currentField = termField;
FieldInfo fi = fieldInfos.FieldInfo(currentField);
if (fi.storeTermVector)
{
if (termVectorWriter == null)
{
termVectorWriter = new TermVectorsWriter(directory, segment, fieldInfos);
termVectorWriter.OpenDocument();
}
termVectorWriter.OpenField(currentField);
}
else if (termVectorWriter != null)
{
termVectorWriter.CloseField();
}
}
if (termVectorWriter != null && termVectorWriter.IsFieldOpen())
{
termVectorWriter.AddTerm(posting.term.Text(), postingFreq, posting.positions, posting.offsets);
}
}
if (termVectorWriter != null)
termVectorWriter.CloseDocument();
}
finally
{
// make an effort to close all streams we can but remember and re-throw
// the first exception encountered in this process
System.IO.IOException keep = null;
if (freq != null)
try
{
freq.Close();
}
catch (System.IO.IOException e)
{
if (keep == null)
keep = e;
}
if (prox != null)
try
{
prox.Close();
}
catch (System.IO.IOException e)
{
if (keep == null)
keep = e;
}
if (tis != null)
try
{
tis.Close();
}
catch (System.IO.IOException e)
{
if (keep == null)
keep = e;
}
if (termVectorWriter != null)
try
{
termVectorWriter.Close();
}
catch (System.IO.IOException e)
{
if (keep == null)
keep = e;
}
if (keep != null)
{
throw new System.IO.IOException(keep.StackTrace);
}
}
}
/// <summary>Sets the argument to the current TermInfo in the enumeration.
/// Initially invalid, valid after next() called for the first time.
/// </summary>
internal void TermInfo(TermInfo ti)
{
ti.Set(termInfo);
}
/// <summary>Sets the argument to the current TermInfo in the enumeration.
/// Initially invalid, valid after next() called for the first time.
/// </summary>
internal void TermInfo(TermInfo ti)
{
ti.Set(termInfo);
}
private void WritePostings(Posting[] postings, System.String segment)
{
IndexOutput freq = null, prox = null;
TermInfosWriter tis = null;
TermVectorsWriter termVectorWriter = null;
try
{
//open files for inverse index storage
freq = directory.CreateOutput(segment + ".frq");
prox = directory.CreateOutput(segment + ".prx");
tis = new TermInfosWriter(directory, segment, fieldInfos, termIndexInterval);
TermInfo ti = new TermInfo();
System.String currentField = null;
for (int i = 0; i < postings.Length; i++)
{
Posting posting = postings[i];
// add an entry to the dictionary with pointers to prox and freq files
ti.Set(1, freq.GetFilePointer(), prox.GetFilePointer(), -1);
tis.Add(posting.term, ti);
// add an entry to the freq file
int postingFreq = posting.freq;
if (postingFreq == 1)
{
// optimize freq=1
freq.WriteVInt(1);
}
// set low bit of doc num.
else
{
freq.WriteVInt(0); // the document number
freq.WriteVInt(postingFreq); // frequency in doc
}
int lastPosition = 0; // write positions
int[] positions = posting.positions;
for (int j = 0; j < postingFreq; j++)
{
// use delta-encoding
int position = positions[j];
prox.WriteVInt(position - lastPosition);
lastPosition = position;
}
// check to see if we switched to a new field
System.String termField = posting.term.Field();
if (currentField != termField)
{
// changing field - see if there is something to save
currentField = termField;
FieldInfo fi = fieldInfos.FieldInfo(currentField);
if (fi.storeTermVector)
{
if (termVectorWriter == null)
{
termVectorWriter = new TermVectorsWriter(directory, segment, fieldInfos);
termVectorWriter.OpenDocument();
}
termVectorWriter.OpenField(currentField);
}
else if (termVectorWriter != null)
{
termVectorWriter.CloseField();
}
}
if (termVectorWriter != null && termVectorWriter.IsFieldOpen())
{
termVectorWriter.AddTerm(posting.term.Text(), postingFreq, posting.positions, posting.offsets);
}
}
if (termVectorWriter != null)
{
termVectorWriter.CloseDocument();
}
}
finally
{
// make an effort to close all streams we can but remember and re-throw
// the first exception encountered in this process
System.IO.IOException keep = null;
if (freq != null)
{
try
{
freq.Close();
}
catch (System.IO.IOException e)
{
if (keep == null)
{
keep = e;
}
}
}
if (prox != null)
{
try
{
prox.Close();
}
catch (System.IO.IOException e)
{
if (keep == null)
{
keep = e;
}
}
}
if (tis != null)
{
try
{
tis.Close();
}
catch (System.IO.IOException e)
{
if (keep == null)
{
keep = e;
}
}
}
if (termVectorWriter != null)
{
try
{
termVectorWriter.Close();
}
catch (System.IO.IOException e)
{
if (keep == null)
{
keep = e;
}
}
}
if (keep != null)
{
throw new System.IO.IOException(keep.StackTrace);
}
}
}
