// DocValues updates
        private void ApplyDocValuesUpdates <T1>(IEnumerable <T1> updates, ReadersAndUpdates rld, SegmentReader reader, DocValuesFieldUpdates.Container dvUpdatesContainer) where T1 : DocValuesUpdate
        {
            lock (this)
            {
                Fields fields = reader.Fields;
                if (fields == null)
                {
                    // this reader has no postings
                    return;
                }

                // TODO: we can process the updates per DV field, from last to first so that
                // if multiple terms affect same document for the same field, we add an update
                // only once (that of the last term). To do that, we can keep a bitset which
                // marks which documents have already been updated. So e.g. if term T1
                // updates doc 7, and then we process term T2 and it updates doc 7 as well,
                // we don't apply the update since we know T1 came last and therefore wins
                // the update.
                // We can also use that bitset as 'liveDocs' to pass to TermEnum.docs(), so
                // that these documents aren't even returned.

                string    currentField = null;
                TermsEnum termsEnum    = null;
                DocsEnum  docs         = null;

                //System.out.println(Thread.currentThread().getName() + " numericDVUpdate reader=" + reader);
                foreach (DocValuesUpdate update in updates)
                {
                    Term term  = update.term;
                    int  limit = update.docIDUpto;

                    // TODO: we traverse the terms in update order (not term order) so that we
                    // apply the updates in the correct order, i.e. if two terms udpate the
                    // same document, the last one that came in wins, irrespective of the
                    // terms lexical order.
                    // we can apply the updates in terms order if we keep an updatesGen (and
                    // increment it with every update) and attach it to each NumericUpdate. Note
                    // that we cannot rely only on docIDUpto because an app may send two updates
                    // which will get same docIDUpto, yet will still need to respect the order
                    // those updates arrived.

                    if (!string.Equals(term.Field, currentField, StringComparison.Ordinal))
                    {
                        // if we change the code to process updates in terms order, enable this assert
                        //        assert currentField == null || currentField.CompareToOrdinal(term.Field) < 0;
                        currentField = term.Field;
                        Terms terms = fields.GetTerms(currentField);
                        if (terms != null)
                        {
                            termsEnum = terms.GetIterator(termsEnum);
                        }
                        else
                        {
                            termsEnum = null;
                            continue; // no terms in that field
                        }
                    }

                    if (termsEnum == null)
                    {
                        continue;
                    }
                    // System.out.println("  term=" + term);

                    if (termsEnum.SeekExact(term.Bytes))
                    {
                        // we don't need term frequencies for this
                        DocsEnum docsEnum = termsEnum.Docs(rld.LiveDocs, docs, DocsFlags.NONE);

                        //System.out.println("BDS: got docsEnum=" + docsEnum);

                        DocValuesFieldUpdates dvUpdates = dvUpdatesContainer.GetUpdates(update.field, update.type);
                        if (dvUpdates == null)
                        {
                            dvUpdates = dvUpdatesContainer.NewUpdates(update.field, update.type, reader.MaxDoc);
                        }
                        int doc;
                        while ((doc = docsEnum.NextDoc()) != DocIdSetIterator.NO_MORE_DOCS)
                        {
                            //System.out.println(Thread.currentThread().getName() + " numericDVUpdate term=" + term + " doc=" + docID);
                            if (doc >= limit)
                            {
                                break; // no more docs that can be updated for this term
                            }
                            dvUpdates.Add(doc, update.value);
                        }
                    }
                }
            }
        }
示例#2
0
        /// <summary>
        /// Call this only once (if you subclass!) </summary>
        protected virtual void Uninvert(AtomicReader reader, IBits liveDocs, BytesRef termPrefix)
        {
            FieldInfo info = reader.FieldInfos.FieldInfo(m_field);

            if (info != null && info.HasDocValues)
            {
                throw new InvalidOperationException("Type mismatch: " + m_field + " was indexed as " + info.DocValuesType);
            }
            //System.out.println("DTO uninvert field=" + field + " prefix=" + termPrefix);
            long startTime = Environment.TickCount;

            m_prefix = termPrefix == null ? null : BytesRef.DeepCopyOf(termPrefix);

            int maxDoc = reader.MaxDoc;

            int[] index    = new int[maxDoc];     // immediate term numbers, or the index into the byte[] representing the last number
            int[] lastTerm = new int[maxDoc];     // last term we saw for this document
            var   bytes    = new sbyte[maxDoc][]; // list of term numbers for the doc (delta encoded vInts)

            Fields fields = reader.Fields;

            if (fields == null)
            {
                // No terms
                return;
            }
            Terms terms = fields.GetTerms(m_field);

            if (terms == null)
            {
                // No terms
                return;
            }

            TermsEnum te        = terms.GetIterator(null);
            BytesRef  seekStart = termPrefix != null ? termPrefix : new BytesRef();

            //System.out.println("seekStart=" + seekStart.utf8ToString());
            if (te.SeekCeil(seekStart) == TermsEnum.SeekStatus.END)
            {
                // No terms match
                return;
            }

            // If we need our "term index wrapper", these will be
            // init'd below:
            IList <BytesRef> indexedTerms      = null;
            PagedBytes       indexedTermsBytes = null;

            bool testedOrd = false;

            // we need a minimum of 9 bytes, but round up to 12 since the space would
            // be wasted with most allocators anyway.
            var tempArr = new sbyte[12];

            //
            // enumerate all terms, and build an intermediate form of the un-inverted field.
            //
            // During this intermediate form, every document has a (potential) byte[]
            // and the int[maxDoc()] array either contains the termNumber list directly
            // or the *end* offset of the termNumber list in it's byte array (for faster
            // appending and faster creation of the final form).
            //
            // idea... if things are too large while building, we could do a range of docs
            // at a time (but it would be a fair amount slower to build)
            // could also do ranges in parallel to take advantage of multiple CPUs

            // OPTIONAL: remap the largest df terms to the lowest 128 (single byte)
            // values.  this requires going over the field first to find the most
            // frequent terms ahead of time.

            int termNum = 0;

            m_docsEnum = null;

            // Loop begins with te positioned to first term (we call
            // seek above):
            for (; ;)
            {
                BytesRef t = te.Term;
                if (t == null || (termPrefix != null && !StringHelper.StartsWith(t, termPrefix)))
                {
                    break;
                }
                //System.out.println("visit term=" + t.utf8ToString() + " " + t + " termNum=" + termNum);

                if (!testedOrd)
                {
                    try
                    {
                        m_ordBase = (int)te.Ord;
                        //System.out.println("got ordBase=" + ordBase);
                    }
#pragma warning disable 168
                    catch (System.NotSupportedException uoe)
#pragma warning restore 168
                    {
                        // Reader cannot provide ord support, so we wrap
                        // our own support by creating our own terms index:
                        indexedTerms      = new List <BytesRef>();
                        indexedTermsBytes = new PagedBytes(15);
                        //System.out.println("NO ORDS");
                    }
                    testedOrd = true;
                }

                VisitTerm(te, termNum);

                if (indexedTerms != null && (termNum & indexIntervalMask) == 0)
                {
                    // Index this term
                    m_sizeOfIndexedStrings += t.Length;
                    BytesRef indexedTerm = new BytesRef();
                    indexedTermsBytes.Copy(t, indexedTerm);
                    // TODO: really should 1) strip off useless suffix,
                    // and 2) use FST not array/PagedBytes
                    indexedTerms.Add(indexedTerm);
                }

                int df = te.DocFreq;
                if (df <= m_maxTermDocFreq)
                {
                    m_docsEnum = te.Docs(liveDocs, m_docsEnum, DocsFlags.NONE);

                    // dF, but takes deletions into account
                    int actualDF = 0;

                    for (; ;)
                    {
                        int doc = m_docsEnum.NextDoc();
                        if (doc == DocIdSetIterator.NO_MORE_DOCS)
                        {
                            break;
                        }
                        //System.out.println("  chunk=" + chunk + " docs");

                        actualDF++;
                        m_termInstances++;

                        //System.out.println("    docID=" + doc);
                        // add TNUM_OFFSET to the term number to make room for special reserved values:
                        // 0 (end term) and 1 (index into byte array follows)
                        int delta = termNum - lastTerm[doc] + TNUM_OFFSET;
                        lastTerm[doc] = termNum;
                        int val = index[doc];

                        if ((val & 0xff) == 1)
                        {
                            // index into byte array (actually the end of
                            // the doc-specific byte[] when building)
                            int pos    = (int)((uint)val >> 8);
                            int ilen   = VInt32Size(delta);
                            var arr    = bytes[doc];
                            int newend = pos + ilen;
                            if (newend > arr.Length)
                            {
                                // We avoid a doubling strategy to lower memory usage.
                                // this faceting method isn't for docs with many terms.
                                // In hotspot, objects have 2 words of overhead, then fields, rounded up to a 64-bit boundary.
                                // TODO: figure out what array lengths we can round up to w/o actually using more memory
                                // (how much space does a byte[] take up?  Is data preceded by a 32 bit length only?
                                // It should be safe to round up to the nearest 32 bits in any case.
                                int newLen = (newend + 3) & unchecked ((int)0xfffffffc); // 4 byte alignment
                                var newarr = new sbyte[newLen];
                                Array.Copy(arr, 0, newarr, 0, pos);
                                arr        = newarr;
                                bytes[doc] = newarr;
                            }
                            pos        = WriteInt32(delta, arr, pos);
                            index[doc] = (pos << 8) | 1; // update pointer to end index in byte[]
                        }
                        else
                        {
                            // OK, this int has data in it... find the end (a zero starting byte - not
                            // part of another number, hence not following a byte with the high bit set).
                            int ipos;
                            if (val == 0)
                            {
                                ipos = 0;
                            }
                            else if ((val & 0x0000ff80) == 0)
                            {
                                ipos = 1;
                            }
                            else if ((val & 0x00ff8000) == 0)
                            {
                                ipos = 2;
                            }
                            else if ((val & 0xff800000) == 0)
                            {
                                ipos = 3;
                            }
                            else
                            {
                                ipos = 4;
                            }

                            //System.out.println("      ipos=" + ipos);

                            int endPos = WriteInt32(delta, tempArr, ipos);
                            //System.out.println("      endpos=" + endPos);
                            if (endPos <= 4)
                            {
                                //System.out.println("      fits!");
                                // value will fit in the integer... move bytes back
                                for (int j = ipos; j < endPos; j++)
                                {
                                    val |= (tempArr[j] & 0xff) << (j << 3);
                                }
                                index[doc] = val;
                            }
                            else
                            {
                                // value won't fit... move integer into byte[]
                                for (int j = 0; j < ipos; j++)
                                {
                                    tempArr[j] = (sbyte)val;
                                    val        = (int)((uint)val >> 8);
                                }
                                // point at the end index in the byte[]
                                index[doc] = (endPos << 8) | 1;
                                bytes[doc] = tempArr;
                                tempArr    = new sbyte[12];
                            }
                        }
                    }
                    SetActualDocFreq(termNum, actualDF);
                }

                termNum++;
                if (te.Next() == null)
                {
                    break;
                }
            }

            m_numTermsInField = termNum;

            long midPoint = Environment.TickCount;

            if (m_termInstances == 0)
            {
                // we didn't invert anything
                // lower memory consumption.
                m_tnums = null;
            }
            else
            {
                this.m_index = index;

                //
                // transform intermediate form into the final form, building a single byte[]
                // at a time, and releasing the intermediate byte[]s as we go to avoid
                // increasing the memory footprint.
                //

                for (int pass = 0; pass < 256; pass++)
                {
                    var target = m_tnums[pass];
                    var pos    = 0; // end in target;
                    if (target != null)
                    {
                        pos = target.Length;
                    }
                    else
                    {
                        target = new sbyte[4096];
                    }

                    // loop over documents, 0x00ppxxxx, 0x01ppxxxx, 0x02ppxxxx
                    // where pp is the pass (which array we are building), and xx is all values.
                    // each pass shares the same byte[] for termNumber lists.
                    for (int docbase = pass << 16; docbase < maxDoc; docbase += (1 << 24))
                    {
                        int lim = Math.Min(docbase + (1 << 16), maxDoc);
                        for (int doc = docbase; doc < lim; doc++)
                        {
                            //System.out.println("  pass="******" process docID=" + doc);
                            int val = index[doc];
                            if ((val & 0xff) == 1)
                            {
                                int len = (int)((uint)val >> 8);
                                //System.out.println("    ptr pos=" + pos);
                                index[doc] = (pos << 8) | 1; // change index to point to start of array
                                if ((pos & 0xff000000) != 0)
                                {
                                    // we only have 24 bits for the array index
                                    throw new InvalidOperationException("Too many values for UnInvertedField faceting on field " + m_field);
                                }
                                var arr = bytes[doc];

                                /*
                                 * for(byte b : arr) {
                                 * //System.out.println("      b=" + Integer.toHexString((int) b));
                                 * }
                                 */
                                bytes[doc] = null; // IMPORTANT: allow GC to avoid OOM
                                if (target.Length <= pos + len)
                                {
                                    int newlen = target.Length;

                                    //* we don't have to worry about the array getting too large
                                    // since the "pos" param will overflow first (only 24 bits available)
                                    // if ((newlen<<1) <= 0) {
                                    //  // overflow...
                                    //  newlen = Integer.MAX_VALUE;
                                    //  if (newlen <= pos + len) {
                                    //    throw new SolrException(400,"Too many terms to uninvert field!");
                                    //  }
                                    // } else {
                                    //  while (newlen <= pos + len) newlen<<=1;  // doubling strategy
                                    // }
                                    //
                                    while (newlen <= pos + len) // doubling strategy
                                    {
                                        newlen <<= 1;
                                    }
                                    var newtarget = new sbyte[newlen];
                                    Array.Copy(target, 0, newtarget, 0, pos);
                                    target = newtarget;
                                }
                                Array.Copy(arr, 0, target, pos, len);
                                pos += len + 1; // skip single byte at end and leave it 0 for terminator
                            }
                        }
                    }

                    // shrink array
                    if (pos < target.Length)
                    {
                        var newtarget = new sbyte[pos];
                        Array.Copy(target, 0, newtarget, 0, pos);
                        target = newtarget;
                    }

                    m_tnums[pass] = target;

                    if ((pass << 16) > maxDoc)
                    {
                        break;
                    }
                }
            }
            if (indexedTerms != null)
            {
                m_indexedTermsArray = indexedTerms.ToArray();
            }

            long endTime = Environment.TickCount;

            m_total_time  = (int)(endTime - startTime);
            m_phase1_time = (int)(midPoint - startTime);
        }
        // Delete by Term
        private long ApplyTermDeletes(IEnumerable <Term> termsIter, ReadersAndUpdates rld, SegmentReader reader)
        {
            lock (this)
            {
                long   delCount = 0;
                Fields fields   = reader.Fields;
                if (fields == null)
                {
                    // this reader has no postings
                    return(0);
                }

                TermsEnum termsEnum = null;

                string   currentField = null;
                DocsEnum docs         = null;

                Debug.Assert(CheckDeleteTerm(null));

                bool any = false;

                //System.out.println(Thread.currentThread().getName() + " del terms reader=" + reader);
                foreach (Term term in termsIter)
                {
                    // Since we visit terms sorted, we gain performance
                    // by re-using the same TermsEnum and seeking only
                    // forwards
                    if (!string.Equals(term.Field, currentField, StringComparison.Ordinal))
                    {
                        Debug.Assert(currentField == null || currentField.CompareToOrdinal(term.Field) < 0);
                        currentField = term.Field;
                        Terms terms = fields.GetTerms(currentField);
                        if (terms != null)
                        {
                            termsEnum = terms.GetIterator(termsEnum);
                        }
                        else
                        {
                            termsEnum = null;
                        }
                    }

                    if (termsEnum == null)
                    {
                        continue;
                    }
                    Debug.Assert(CheckDeleteTerm(term));

                    // System.out.println("  term=" + term);

                    if (termsEnum.SeekExact(term.Bytes))
                    {
                        // we don't need term frequencies for this
                        DocsEnum docsEnum = termsEnum.Docs(rld.LiveDocs, docs, DocsFlags.NONE);
                        //System.out.println("BDS: got docsEnum=" + docsEnum);

                        if (docsEnum != null)
                        {
                            while (true)
                            {
                                int docID = docsEnum.NextDoc();
                                //System.out.println(Thread.currentThread().getName() + " del term=" + term + " doc=" + docID);
                                if (docID == DocIdSetIterator.NO_MORE_DOCS)
                                {
                                    break;
                                }
                                if (!any)
                                {
                                    rld.InitWritableLiveDocs();
                                    any = true;
                                }
                                // NOTE: there is no limit check on the docID
                                // when deleting by Term (unlike by Query)
                                // because on flush we apply all Term deletes to
                                // each segment.  So all Term deleting here is
                                // against prior segments:
                                if (rld.Delete(docID))
                                {
                                    delCount++;
                                }
                            }
                        }
                    }
                }

                return(delCount);
            }
        }
示例#4
0
 /// <summary>
 /// Creates a new <see cref="FilterFields"/>. </summary>
 /// <param name="input"> the underlying <see cref="Index.Fields"/> instance. </param>
 public FilterFields(Fields input)
 {
     this.m_input = input;
 }