Esempi in C# (CSharp) per SpatialContext.CalcDistance

Esempio n. 1

File: SpatialExample.cs Progetto: zhangbo27/lucenenet

        private void Search()
        {
            IndexReader   indexReader   = DirectoryReader.Open(directory);
            IndexSearcher indexSearcher = new IndexSearcher(indexReader);
            Sort          idSort        = new Sort(new SortField("id", SortFieldType.INT32));

            //--Filter by circle (<= distance from a point)
            {
                //Search with circle
                //note: SpatialArgs can be parsed from a string
                SpatialArgs args = new SpatialArgs(SpatialOperation.Intersects,
                                                   ctx.MakeCircle(-80.0, 33.0, DistanceUtils.Dist2Degrees(200, DistanceUtils.EARTH_MEAN_RADIUS_KM)));
                Filter  filter = strategy.MakeFilter(args);
                TopDocs docs   = indexSearcher.Search(new MatchAllDocsQuery(), filter, 10, idSort);
                AssertDocMatchedIds(indexSearcher, docs, 2);
                //Now, lets get the distance for the 1st doc via computing from stored point value:
                // (this computation is usually not redundant)
                Document doc1    = indexSearcher.Doc(docs.ScoreDocs[0].Doc);
                String   doc1Str = doc1.GetField(strategy.FieldName).GetStringValue();
                //assume doc1Str is "x y" as written in newSampleDocument()
                int    spaceIdx    = doc1Str.IndexOf(' ');
                double x           = double.Parse(doc1Str.Substring(0, spaceIdx - 0), CultureInfo.InvariantCulture);
                double y           = double.Parse(doc1Str.Substring(spaceIdx + 1), CultureInfo.InvariantCulture);
                double doc1DistDEG = ctx.CalcDistance(args.Shape.Center, x, y);
                assertEquals(121.6d, DistanceUtils.Degrees2Dist(doc1DistDEG, DistanceUtils.EARTH_MEAN_RADIUS_KM), 0.1);
                //or more simply:
                assertEquals(121.6d, doc1DistDEG * DistanceUtils.DEG_TO_KM, 0.1);
            }
            //--Match all, order by distance ascending
            {
                IPoint      pt          = ctx.MakePoint(60, -50);
                ValueSource valueSource = strategy.MakeDistanceValueSource(pt, DistanceUtils.DEG_TO_KM);    //the distance (in km)
                Sort        distSort    = new Sort(valueSource.GetSortField(false)).Rewrite(indexSearcher); //false=asc dist
                TopDocs     docs        = indexSearcher.Search(new MatchAllDocsQuery(), 10, distSort);
                AssertDocMatchedIds(indexSearcher, docs, 4, 20, 2);
                //To get the distance, we could compute from stored values like earlier.
                // However in this example we sorted on it, and the distance will get
                // computed redundantly.  If the distance is only needed for the top-X
                // search results then that's not a big deal. Alternatively, try wrapping
                // the ValueSource with CachingDoubleValueSource then retrieve the value
                // from the ValueSource now. See LUCENE-4541 for an example.
            }
            //demo arg parsing
            {
                SpatialArgs args = new SpatialArgs(SpatialOperation.Intersects,
                                                   ctx.MakeCircle(-80.0, 33.0, 1));
                SpatialArgs args2 = new SpatialArgsParser().Parse("Intersects(BUFFER(POINT(-80 33),1))", ctx);
                assertEquals(args.toString(), args2.toString());
            }

            indexReader.Dispose();
        }