• lucene.net索引文件存储简析


    在lucene.net中,典型的索引文件操作代码如下:
    IndexWriter writer = new IndexWriter("c:\index", new StandardAnalyzer(), true);
    try
    {
       Document doc = new Document();
       doc.Add(Field.Keyword("name", "name name");
       doc.Add(Field.Text("title", "title title");
       doc.Add(Field.Text("content", "content content");
       writer.AddDocument();
    }
    finally{    
       writer.Optimize();
       writer.Close();
    }

    在上面的代码中:
    IndexWriter专门用于索引文件的写入操作;
    StandardAnalyzer是一个分析器,用于对要索引的内容进行切分处理;
    Document表示一条被索引的记录;

    下面简单分析一下索引文件的创建过程

    01. 创建IndexWriter

    IndexWriter有几个重载的构造函数,它们都调用私有构造函数
    private IndexWriter(Directory d, Analyzer a, bool create, bool closeDir) {
    // 初始化及锁定处理略...
       lock (directory) {
       // in- & inter-process sync
          new AnonymousClassWith(create, this, directory.MakeLock(IndexWriter.COMMIT_LOCK_NAME), COMMIT_LOCK_TIMEOUT).Run();
       }
    }
    参数Directory是Lucene.net内实现的一个存储结构,它有基于文件系统的FSDirectory和基于内存的RAMDirectory两个版本;
    Analyzer为分析器,用于索引内容的切分,StandardAnalyzer是Lucene.net内的一个标准的分析器实现,支持中英文,不过中文是按单字切分的;
    create指定是否创建索引目录,如果要在同一文件夹内进行增量索引,create应设置为false;

    AnonymousClassWith是一个辅助类,用于完成索引目录的初始化操作,
    // class Lock.With (lock.cs)
    public virtual Object Run() {
    bool locked = false;
    try {
       locked = lock_Renamed.Obtain(lockWaitTimeout);
       return DoBody();
    }
    finally {
       if (locked)
        lock_Renamed.Release();
    }
    }
    先取得一个操作锁对象,然后进行具体的操作,避免多个线程同时进行一项操作。
    关于lucene的锁操作在后续文章中介绍,

    // class IndexWriter.AnonymousClassWith
    public override Object DoBody() {
    if (create)
       Enclosing_Instance.segmentInfos.Write(Enclosing_Instance.directory);
    else
       Enclosing_Instance.segmentInfos.Read(Enclosing_Instance.directory);
    return null;
    }
    根据create的值决定是新索引目录(Write)还是使用现有索引目录(Read);
    segmentInfos用于记录索引目录下的索引文件信息.

    // class SegmentInfos
    public void Write(Directory directory) {
    OutputStream output = directory.CreateFile("segments.new");
    try {
       output.WriteInt(FORMAT); // write FORMAT
       output.WriteLong(++version); // every write changes the index
       output.WriteInt(counter); // write counter
       output.WriteInt(Count); // write infos
       for (int i = 0; i < Count; i++) {
        SegmentInfo si = Info(i);
        output.WriteString(si.name);
        output.WriteInt(si.docCount);
       }
    }
    finally {
       output.Close();
    }   
    directory.RenameFile("segments.new", "segments");
    }
    创建一个索引信息文件,lucene.net实现了一套与平台无关的存储机制,采用按字节进行读取和写入,并定义了以下几种类型:
    Int:    整形        四字节
    Long:   长整型      八字节
    VInt:   变长整形    不定
    VLong: 变长长整形 不定
    String: 字符串      不定
    OutputStream为lucene.net内实现的输出流类
    从上面的代码得到segments文件的格式如下:
    Format + Version + Counter + segment总数 + (segment名称1 + doc总数1) + (segment名称2 + doc总数2) + (...) + (segment名称n + doc总数n)

    // class SegmentInfos
    public void Read(Directory directory) {   
    InputStream input = directory.OpenFile("segments");
    try {
       int format = input.ReadInt();    
       for (int i = input.ReadInt(); i > 0; i--) {
          // read segmentInfos
        SegmentInfo si = new SegmentInfo(input.ReadString(), input.ReadInt(), directory);
        Add(si);
       }
    }
    finally {
       input.Close();
    }
    }
    读取现有索引文件信息。InputStream为lucene.net内实现的输入流类.

    02. 添加文档(AddDocument)

    // class IndexWriter
    public virtual void AddDocument(Document doc, Analyzer analyzer) {
    DocumentWriter dw = new DocumentWriter(ramDirectory, analyzer, similarity, maxFieldLength);
    System.String segmentName = NewSegmentName();
    dw.AddDocument(segmentName, doc);
    lock (this) {
       segmentInfos.Add(new SegmentInfo(segmentName, 1, ramDirectory));
       MaybeMergeSegments();
    }
    }
    先构造一个DocumentWriter, 通过NewSegmentName取得一个随机的segment文件名,
    然后调用DocumentWriter.AddDocument对文档进行处理,并把内容写入到segment文件中,
    最后调用MaybeMergeSegments检查是否合并segment。

    // class DocumentWriter
    public void AddDocument(System.String segment, Document doc) {
    // write Field names
    fieldInfos = new FieldInfos();
    fieldInfos.Add(doc);
    fieldInfos.Write(directory, segment + ".fnm");
       
    // write Field values
    FieldsWriter fieldsWriter = new FieldsWriter(directory, segment, fieldInfos);
    try {
       fieldsWriter.AddDocument(doc);
    }
    finally {
       fieldsWriter.Close();
    }
       
    // invert doc into postingTable
    postingTable.Clear(); // clear postingTable
    fieldLengths = new int[fieldInfos.Size()]; // init fieldLengths
    fieldPositions = new int[fieldInfos.Size()]; // init fieldPositions
       
    fieldBoosts = new float[fieldInfos.Size()]; // init fieldBoosts
        float boost = doc.GetBoost();
        for (int i = 0; i < fieldBoosts.Length; i++) {
            fieldBoosts[i] = boost;
        }
       
    InvertDocument(doc);
       
    // sort postingTable into an array
    Posting[] postings = SortPostingTable();
       
    // write postings
    WritePostings(postings, segment);
       
    // write norms of indexed fields
    WriteNorms(doc, segment);
    }

    1. 将字段信息写入.fnm文件中;
    // class FieldInfos
    public void Write(OutputStream output) {
    output.WriteVInt(Size());
    for (int i = 0; i < Size(); i++) {
       FieldInfo fi = FieldInfo(i);
       byte bits = (byte) (0x0);
       if (fi.isIndexed)
        bits |= (byte) (0x1);
       if (fi.storeTermVector)
        bits |= (byte) (0x2);
       output.WriteString(fi.name);
       output.WriteByte(bits);
    }
    }
    由上面的代码得到.fnm文件的格式如下:
    字段总数 + (字段名1 + 字段标志1) + (字段名2 + 字段标志2) + (...) + (字段名n + 字段标志n)

    2. 存储字段内容
    // class FieldsWriter
    internal void AddDocument(Document doc) {
    indexStream.WriteLong(fieldsStream.GetFilePointer());
       
    int storedCount = 0;
        foreach (Field field in doc.Fields()) {
       if (field.IsStored())
        storedCount++;
    }
    fieldsStream.WriteVInt(storedCount);
       
        foreach (Field field in doc.Fields()) {
        if (field.IsStored()) {
           fieldsStream.WriteVInt(fieldInfos.FieldNumber(field.Name()));
         
        byte bits = 0;
        if (field.IsTokenized())
         bits |= 1;
        fieldsStream.WriteByte(bits);
         
        fieldsStream.WriteString(field.StringValue());
        }
       }
    }
    根据字段的IsStored()决断字段内容是否要存储,从上面的代码得到.fdt的格式如下:
    要存储的字段总数 + (字段是.fnm中的字段序号1 + 字段标识1 + 字段内容1) + (...) + (字段是.fnm中的字段序号n + 字段标识n + 字段内容n)

    3. 倒排文档InvertDocument
    // class DocumentWriter
    private void InvertDocument(Document doc) {
        foreach(Field field in doc.Fields()) {
       System.String fieldName = field.Name();
       int fieldNumber = fieldInfos.FieldNumber(fieldName);
        
       int length = fieldLengths[fieldNumber]; // length of Field
       int position = fieldPositions[fieldNumber]; // position in Field
        
       if (field.IsIndexed()) {
        if (!field.IsTokenized()) {
         // un-tokenized Field
         AddPosition(fieldName, field.StringValue(), position++);
         length++;
        }
        else {
         System.IO.TextReader reader; // find or make Reader
         if (field.ReaderValue() != null)
          reader = field.ReaderValue();
         else if (field.StringValue() != null)
          reader = new System.IO.StringReader(field.StringValue());
         else
          throw new System.ArgumentException("Field must have either String or Reader value");
          
         // Tokenize Field and add to postingTable
         TokenStream stream = analyzer.TokenStream(fieldName, reader);
         try {
          for (Token t = stream.Next(); t != null; t = stream.Next()) {
           position += (t.GetPositionIncrement() - 1);
           AddPosition(fieldName, t.TermText(), position++);
           if (++length > maxFieldLength)
            break;
          }
         }
         finally {
          stream.Close();
         }
        }
         
        fieldLengths[fieldNumber] = length; // save Field length
        fieldPositions[fieldNumber] = position; // save Field position
        fieldBoosts[fieldNumber] *= field.GetBoost();
       }
    }
    }
    通过analyzer(分析器)对字段内容进行切分,并保存Term信息, 关于analyzer在后续文章中进行分绍.
    fieldLengths 存储处理的term总数;
    fieldPositions 保存最后一个被处理term的位置;
    fieldBoosts

    Posting类(包含term, 位置和出现频率).
    // class Document.Writer.Posting
    sealed class Posting {
    // info about a Term in a doc
    internal Term term; // the Term
    internal int freq; // its frequency in doc
    internal int[] positions; // positions it occurs at

    internal Posting(Term t, int position)
    {
       term = t;
       freq = 1;
       positions = new int[1];
       positions[0] = position;
    }
    }

    保存Posting信息
    // class DocumentWriter
    private void AddPosition(System.String field, System.String text, int position) {
    termBuffer.Set(field, text);
    Posting ti = (Posting) postingTable[termBuffer];
    if (ti != null) {
       // word seen before
       int freq = ti.freq;
       if (ti.positions.Length == freq) {
        // positions array is full
        int[] newPositions = new int[freq * 2]; // double size
        int[] positions = ti.positions;
        for (int i = 0; i < freq; i++)
        // copy old positions to new
         newPositions[i] = positions[i];
        ti.positions = newPositions;
       }
       ti.positions[freq] = position; // add new position
       ti.freq = freq + 1; // update frequency
    }
    else {
       // word not seen before
       Term term = new Term(field, text, false);
       postingTable[term] = new Posting(term, position);
    }
    }
    先查找term是否存在,如存在则增加词频freq, 不存在则创建一个Posting。
    postingTable是一个Hashtable,用于存储Posting信息,

    4. 对Posting进行排序
    // class DocumentWriter
    private Posting[] SortPostingTable() {
    // copy postingTable into an array
    Posting[] array = new Posting[postingTable.Count];
    System.Collections.IEnumerator postings = postingTable.Values.GetEnumerator();
    for (int i = 0; postings.MoveNext(); i++) {
       array[i] = (Posting) postings.Current;
    }

    // sort the array
    QuickSort(array, 0, array.Length - 1);
    return array;
    }
    用QuickSort(快速排序)对Posting进行排序,通过比较Term进行排序, QuickSort这里就不列出了,请参考相关源码或算法结构。

    // class Term
    public int CompareTo(Term other) {
    if (field == other.field)
    // fields are interned
       return String.CompareOrdinal(text, other.text);
    else
       return String.CompareOrdinal(field, other.field);
    }
    从上面可得知,Term是通过字符的数值进序的。

    5. 将Posting写入文件
    03. 合并Segments

    来源:http://blog.esoutong.com/user1/Lucene/archives/2006/796.html

    tags:lucene lucene.net dotlucene索引文件 存储 操作 增量索引 IndexWriter Segments

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  • 原文地址:https://www.cnblogs.com/0000/p/1531700.html
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