Namespace Lucene.Net.Util.Fst

Finite state transducers

This package implements Finite State Transducers with the following characteristics:

  • Fast and low memory overhead construction of the minimal FST (but inputs must be provided in sorted order)

  • Low object overhead and quick deserialization (byte[] representation)

  • Optional two-pass compression: FST.pack

  • Lookup-by-output when the outputs are in sorted order (e.g., ordinals or file pointers)

  • Pluggable Outputs representation

  • N-shortest-paths search by weight

  • Enumerators (IntsRef and BytesRef) that behave like {@link java.util.SortedMap SortedMap} iterators

FST Construction example:

    // Input values (keys). These must be provided to Builder in Unicode sorted order!
    String inputValues[] = {"cat", "dog", "dogs"};
    long outputValues[] = {5, 7, 12};

    PositiveIntOutputs outputs = PositiveIntOutputs.getSingleton();
    Builder<Long> builder = new Builder<Long>(INPUT_TYPE.BYTE1, outputs);
    BytesRef scratchBytes = new BytesRef();
    IntsRef scratchInts = new IntsRef();
    for (int i = 0; i < inputValues.length; i++) {
      scratchBytes.copyChars(inputValues[i]);
      builder.add(Util.toIntsRef(scratchBytes, scratchInts), outputValues[i]);
    }
    FST<Long> fst = builder.finish();

Retrieval by key:

    Long value = Util.get(fst, new BytesRef("dog"));
    System.out.println(value); // 7

Retrieval by value:

    // Only works because outputs are also in sorted order
    IntsRef key = Util.getByOutput(fst, 12);
    System.out.println(Util.toBytesRef(key, scratchBytes).utf8ToString()); // dogs

Iterate over key-value pairs in sorted order:

    // Like TermsEnum, this also supports seeking (advance)
    BytesRefFSTEnum<Long> iterator = new BytesRefFSTEnum<Long>(fst);
    while (iterator.next() != null) {
      InputOutput<Long> mapEntry = iterator.current();
      System.out.println(mapEntry.input.utf8ToString());
      System.out.println(mapEntry.output);
    }

N-shortest paths by weight:

    Comparator<Long> comparator = new Comparator<Long>() {
      public int compare(Long left, Long right) {
        return left.compareTo(right);
      }
    };
    Arc<Long> firstArc = fst.getFirstArc(new Arc<Long>());
    MinResult<Long> paths[] = Util.shortestPaths(fst, firstArc, comparator, 2);
    System.out.println(Util.toBytesRef(paths[0].input, scratchBytes).utf8ToString()); // cat
    System.out.println(paths[0].output); // 5
    System.out.println(Util.toBytesRef(paths[1].input, scratchBytes).utf8ToString()); // dog
    System.out.println(paths[1].output); // 7

Classes

Builder

LUCENENET specific type used to access nested types of Builder<T> without referring to its generic closing type.

Builder.Arc<S>

Expert: holds a pending (seen but not yet serialized) arc.

Builder.CompiledNode

Builder.FreezeTail<S>

Expert: this is invoked by Builder whenever a suffix is serialized.

Builder.UnCompiledNode<S>

Expert: holds a pending (seen but not yet serialized) Node.

Builder<T>

Builds a minimal FST (maps an Int32sRef term to an arbitrary output) from pre-sorted terms with outputs. The FST becomes an FSA if you use NoOutputs. The FST is written on-the-fly into a compact serialized format byte array, which can be saved to / loaded from a Directory or used directly for traversal. The FST is always finite (no cycles).

NOTE: The algorithm is described at http://citeseerx.ist.psu.edu/viewdoc/summary?doi=10.1.1.24.3698

The parameterized type is the output type. See the subclasses of Outputs<T>.

FSTs larger than 2.1GB are now possible (as of Lucene 4.2). FSTs containing more than 2.1B nodes are also now possible, however they cannot be packed.

This is a Lucene.NET EXPERIMENTAL API, use at your own risk

ByteSequenceOutputs

An FST Outputs{BytesRef} implementation where each output is a sequence of bytes.

This is a Lucene.NET EXPERIMENTAL API, use at your own risk

BytesRefFSTEnum

LUCENENET specific. This class is to mimic Java's ability to specify nested classes of Generics without having to specify the generic type (i.e. BytesRefFSTEnum.InputOutput{T} rather than BytesRefFSTEnum{T}.InputOutput{T})

BytesRefFSTEnum.InputOutput<T>

Holds a single input (BytesRef) + output pair.

BytesRefFSTEnum<T>

Enumerates all input (BytesRef) + output pairs in an FST.

This is a Lucene.NET EXPERIMENTAL API, use at your own risk

CharSequenceOutputs

An FST Outputs<T> implementation where each output is a sequence of characters.

This is a Lucene.NET EXPERIMENTAL API, use at your own risk

FST

LUCENENET specific: This new base class is to mimic Java's ability to use nested types without specifying a type parameter. i.e. FST.BytesReader instead of FST<BytesRef>.BytesReader

FST.Arc<T>

Represents a single arc.

FST.BytesReader

Reads bytes stored in an FST.

FST<T>

Represents an finite state machine (FST), using a compact byte[] format.

The format is similar to what's used by Morfologik (http://sourceforge.net/projects/morfologik).

See the FST package documentation for some simple examples.

This is a Lucene.NET EXPERIMENTAL API, use at your own risk

FSTEnum<T>

Can Next() and Advance() through the terms in an FST

This is a Lucene.NET EXPERIMENTAL API, use at your own risk

Int32SequenceOutputs

An FST Outputs<T> implementation where each output is a sequence of System.Int32s.

NOTE: This was IntSequenceOutputs in Lucene

This is a Lucene.NET EXPERIMENTAL API, use at your own risk

Int32sRefFSTEnum

LUCENENET specific. This class is to mimic Java's ability to specify nested classes of Generics without having to specify the generic type (i.e. Int32sRefFSTEnum.InputOutput{T} rather than Int32sRefFSTEnum{T}.InputOutput{T})

NOTE: This was Int32sRefFSTEnum{T} in Lucene

Int32sRefFSTEnum.InputOutput<T>

Holds a single input (Int32sRef) + output pair.

Int32sRefFSTEnum<T>

Enumerates all input (Int32sRef) + output pairs in an FST.

NOTE: This was IntsRefFSTEnum{T} in Lucene

This is a Lucene.NET EXPERIMENTAL API, use at your own risk

NoOutputs

A null FST Outputs<T> implementation; use this if you just want to build an FSA.

This is a Lucene.NET EXPERIMENTAL API, use at your own risk

Outputs<T>

Represents the outputs for an FST, providing the basic algebra required for building and traversing the FST.

Note that any operation that returns NO_OUTPUT must return the same singleton object from NoOutput.

LUCENENET IMPORTANT: If T is a collection type, it must implement System.Collections.IStructuralEquatable in order to properly compare its nested values.

This is a Lucene.NET EXPERIMENTAL API, use at your own risk

PairOutputs<A, B>

An FST Outputs<T> implementation, holding two other outputs.

This is a Lucene.NET EXPERIMENTAL API, use at your own risk

PairOutputs<A, B>.Pair

Holds a single pair of two outputs.

PositiveInt32Outputs

An FST Outputs<T> implementation where each output is a non-negative value.

NOTE: This was PositiveIntOutputs in Lucene

This is a Lucene.NET EXPERIMENTAL API, use at your own risk

Util

Static helper methods.

This is a Lucene.NET EXPERIMENTAL API, use at your own risk

Util.FSTPath<T>

Represents a path in TopNSearcher.

This is a Lucene.NET EXPERIMENTAL API, use at your own risk

Util.Result<T>

Holds a single input (Int32sRef) + output, returned by ShortestPaths<T>(FST<T>, FST.Arc<T>, T, IComparer<T>, Int32, Boolean).

Util.TopNSearcher<T>

Utility class to find top N shortest paths from start point(s).

Util.TopResults<T>

Holds the results for a top N search using Util.TopNSearcher<T>

Interfaces

Builder.INode

Enums

FST.INPUT_TYPE

Specifies allowed range of each int input label for this FST.