Esempio n. 1
0
 /// <summary> Initializes the token stream with the supplied <code>float</code> value.</summary>
 /// <param name="value">the value, for which this TokenStream should enumerate tokens.
 /// </param>
 /// <returns> this instance, because of this you can use it the following way:
 /// <code>new Field(name, new NumericTokenStream(precisionStep).SetFloatValue(value))</code>
 /// </returns>
 public NumericTokenStream SetFloatValue(float value_Renamed)
 {
     this.value_Renamed = (long)NumericUtils.FloatToSortableInt(value_Renamed);
     valSize            = 32;
     shift = 0;
     return(this);
 }
Esempio n. 2
0
            public override DocIdSet GetDocIdSet(IndexReader reader)
            {
                // we transform the floating point numbers to sortable integers
                // using NumericUtils to easier find the next bigger/lower value
                float inclusiveLowerPoint;
                float inclusiveUpperPoint;

                if (lowerVal != null)
                {
                    float f = System.Convert.ToSingle(((System.ValueType)lowerVal));
                    if (!includeUpper && f > 0.0f && System.Single.IsInfinity(f))
                    {
                        return(DocIdSet.EMPTY_DOCIDSET);
                    }
                    int i = NumericUtils.FloatToSortableInt(f);
                    inclusiveLowerPoint = NumericUtils.SortableIntToFloat(includeLower?i:(i + 1));
                }
                else
                {
                    inclusiveLowerPoint = System.Single.NegativeInfinity;
                }
                if (upperVal != null)
                {
                    float f = System.Convert.ToSingle(((System.ValueType)upperVal));
                    if (!includeUpper && f < 0.0f && System.Single.IsInfinity(f))
                    {
                        return(DocIdSet.EMPTY_DOCIDSET);
                    }
                    int i = NumericUtils.FloatToSortableInt(f);
                    inclusiveUpperPoint = NumericUtils.SortableIntToFloat(includeUpper?i:(i - 1));
                }
                else
                {
                    inclusiveUpperPoint = System.Single.PositiveInfinity;
                }

                if (inclusiveLowerPoint > inclusiveUpperPoint)
                {
                    return(DocIdSet.EMPTY_DOCIDSET);
                }

                float[] values = Mono.Lucene.Net.Search.FieldCache_Fields.DEFAULT.GetFloats(reader, field, (Mono.Lucene.Net.Search.FloatParser)parser);
                // we only request the usage of termDocs, if the range contains 0
                return(new AnonymousClassFieldCacheDocIdSet(values, inclusiveLowerPoint, inclusiveUpperPoint, this, reader, (inclusiveLowerPoint <= 0.0f && inclusiveUpperPoint >= 0.0f)));
            }
Esempio n. 3
0
            internal NumericRangeTermEnum(NumericRangeQuery enclosingInstance, IndexReader reader)
            {
                InitBlock(enclosingInstance);
                this.reader = reader;

                switch (Enclosing_Instance.valSize)
                {
                case 64:  {
                    // lower
                    long minBound = System.Int64.MinValue;
                    if (Enclosing_Instance.min is System.Int64)
                    {
                        minBound = System.Convert.ToInt64(Enclosing_Instance.min);
                    }
                    else if (Enclosing_Instance.min is System.Double)
                    {
                        minBound = NumericUtils.DoubleToSortableLong(System.Convert.ToDouble(Enclosing_Instance.min));
                    }
                    if (!Enclosing_Instance.minInclusive && Enclosing_Instance.min != null)
                    {
                        if (minBound == System.Int64.MaxValue)
                        {
                            break;
                        }
                        minBound++;
                    }

                    // upper
                    long maxBound = System.Int64.MaxValue;
                    if (Enclosing_Instance.max is System.Int64)
                    {
                        maxBound = System.Convert.ToInt64(Enclosing_Instance.max);
                    }
                    else if (Enclosing_Instance.max is System.Double)
                    {
                        maxBound = NumericUtils.DoubleToSortableLong(System.Convert.ToDouble(Enclosing_Instance.max));
                    }
                    if (!Enclosing_Instance.maxInclusive && Enclosing_Instance.max != null)
                    {
                        if (maxBound == System.Int64.MinValue)
                        {
                            break;
                        }
                        maxBound--;
                    }

                    NumericUtils.SplitLongRange(new AnonymousClassLongRangeBuilder(this), Enclosing_Instance.precisionStep, minBound, maxBound);
                    break;
                }


                case 32:  {
                    // lower
                    int minBound = System.Int32.MinValue;
                    if (Enclosing_Instance.min is System.Int32)
                    {
                        minBound = System.Convert.ToInt32(Enclosing_Instance.min);
                    }
                    else if (Enclosing_Instance.min is System.Single)
                    {
                        minBound = NumericUtils.FloatToSortableInt(System.Convert.ToSingle(Enclosing_Instance.min));
                    }
                    if (!Enclosing_Instance.minInclusive && Enclosing_Instance.min != null)
                    {
                        if (minBound == System.Int32.MaxValue)
                        {
                            break;
                        }
                        minBound++;
                    }

                    // upper
                    int maxBound = System.Int32.MaxValue;
                    if (Enclosing_Instance.max is System.Int32)
                    {
                        maxBound = System.Convert.ToInt32(Enclosing_Instance.max);
                    }
                    else if (Enclosing_Instance.max is System.Single)
                    {
                        maxBound = NumericUtils.FloatToSortableInt(System.Convert.ToSingle(Enclosing_Instance.max));
                    }
                    if (!Enclosing_Instance.maxInclusive && Enclosing_Instance.max != null)
                    {
                        if (maxBound == System.Int32.MinValue)
                        {
                            break;
                        }
                        maxBound--;
                    }

                    NumericUtils.SplitIntRange(new AnonymousClassIntRangeBuilder(this), Enclosing_Instance.precisionStep, minBound, maxBound);
                    break;
                }


                default:
                    // should never happen
                    throw new System.ArgumentException("valSize must be 32 or 64");
                }

                // seek to first term
                Next();
            }