public static ShapeMsg GetOpenJawReshapeReplaceEndPoint(
            [NotNull] OpenJawReshapeLineReplacementRequest request,
            [CanBeNull] ITrackCancel trackCancel = null)
        {
            var polylineToReshape =
                (IPolyline)ProtobufGeometryUtils.FromShapeMsg(request.Feature.Shape);
            var reshapeLine =
                (IPolyline)ProtobufGeometryUtils.FromShapeMsg(request.ReshapePath);

            IPoint endPoint = null;

            if (polylineToReshape != null && reshapeLine != null)
            {
                endPoint = ReshapeUtils.GetOpenJawReshapeLineReplaceEndPoint(
                    polylineToReshape, reshapeLine, request.UseNonDefaultReshapeSide);
            }

            if (endPoint == null)
            {
                return(new ShapeMsg());
            }

            ShapeMsg result = ProtobufGeometryUtils.ToShapeMsg(endPoint);

            return(result);
        }
Esempio n. 2
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        public void CanGetOpenJawReshapeLineReplaceEndPoint()
        {
            var fClass =
                new GdbFeatureClass(123, "TestFC", esriGeometryType.esriGeometryPolyline);

            var sr = SpatialReferenceUtils.CreateSpatialReference(
                WellKnownHorizontalCS.LV95,
                WellKnownVerticalCS.LN02);

            fClass.SpatialReference = sr;

            IPath sourcePath = GeometryFactory.CreatePath(
                GeometryFactory.CreatePoint(2600500, 1200000, sr),
                GeometryFactory.CreatePoint(2600500, 1200500, sr),
                GeometryFactory.CreatePoint(2601000, 1200500, sr));

            sourcePath.SpatialReference = sr;

            IPolyline sourcePolyline = GeometryFactory.CreatePolyline(sourcePath);

            GdbFeature sourceFeature = new GdbFeature(42, fClass)
            {
                Shape = sourcePolyline
            };

            IPath reshapePath = GeometryFactory.CreatePath(
                GeometryFactory.CreatePoint(2600500, 1200500, sr),
                GeometryFactory.CreatePoint(2600500, 1201000, sr));

            reshapePath.SpatialReference = sr;

            IPolyline reshapePolyline = GeometryFactory.CreatePolyline(reshapePath);

            var sourceFeatureMsg = ProtobufGdbUtils.ToGdbObjectMsg(sourceFeature);
            var reshapePathMsg   = ProtobufGeometryUtils.ToShapeMsg(reshapePolyline);

            var request = new OpenJawReshapeLineReplacementRequest
            {
                Feature     = sourceFeatureMsg,
                ReshapePath = reshapePathMsg
            };

            ShapeMsg response =
                AdvancedReshapeServiceUtils.GetOpenJawReshapeReplaceEndPoint(request);

            IPoint resultPoint = (IPoint)ProtobufGeometryUtils.FromShapeMsg(response);

            Assert.IsTrue(GeometryUtils.AreEqual(sourcePolyline.ToPoint, resultPoint));

            // Non-default side:
            request.UseNonDefaultReshapeSide = true;

            response =
                AdvancedReshapeServiceUtils.GetOpenJawReshapeReplaceEndPoint(request);
            resultPoint = (IPoint)ProtobufGeometryUtils.FromShapeMsg(response);

            Assert.IsTrue(GeometryUtils.AreEqual(sourcePolyline.FromPoint, resultPoint));
        }
Esempio n. 3
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        public void CanCutAlongInsertTargetVertices()
        {
            GetOverlappingPolygons(out GdbFeature sourceFeature, out GdbFeature targetFeature);

            CalculateCutLinesRequest calculationRequest =
                CreateCalculateCutLinesRequest(sourceFeature, targetFeature);

            CalculateCutLinesResponse calculateResponse =
                ChangeAlongServiceUtils.CalculateCutLines(calculationRequest, null);

            Assert.AreEqual(ReshapeAlongCurveUsability.CanReshape,
                            (ReshapeAlongCurveUsability)calculateResponse.ReshapeLinesUsability);

            AssertReshapeLineCount(calculateResponse.CutLines, 1, 1);

            IPolyline reshapeLine =
                (IPolyline)ProtobufGeometryUtils.FromShapeMsg(calculateResponse.CutLines[0].Path);

            Assert.NotNull(reshapeLine);
            Assert.AreEqual(1000, (reshapeLine).Length);

            //
            // Cutting
            //
            var applyRequest = new ApplyCutLinesRequest();

            applyRequest.CutLines.Add(calculateResponse.CutLines[0]);
            applyRequest.CalculationRequest     = calculationRequest;
            applyRequest.InsertVerticesInTarget = true;

            ApplyCutLinesResponse applyResponse =
                ChangeAlongServiceUtils.ApplyCutLines(applyRequest, null);

            Assert.AreEqual(3, applyResponse.ResultFeatures.Count);

            List <IGeometry> cutSourceGeometries =
                applyResponse.ResultFeatures
                .Where(f => GetObjectId(f) != targetFeature.OID)
                .Select(GetShape)
                .ToList();

            Assert.AreEqual(1000 * 1000, cutSourceGeometries.Sum(g => ((IArea)g).Area));

            IGeometry updatedTargetGeometry =
                applyResponse.ResultFeatures
                .Where(f => f.Update?.ObjectId == targetFeature.OID)
                .Select(GetShape)
                .Single();

            Assert.AreEqual(GeometryUtils.GetPointCount(targetFeature.Shape) + 2,
                            GeometryUtils.GetPointCount(updatedTargetGeometry));

            // Check the new reshape line:
            AssertReshapeLineCount(applyResponse.NewCutLines, 0, 0);

            Assert.AreEqual(ReshapeAlongCurveUsability.NoReshapeCurves,
                            (ReshapeAlongCurveUsability)applyResponse.CutLinesUsability);
        }
        public void CanConvertPolygonToFromShapeMsg()
        {
            string xmlFile = TestData.GetDensifiedWorkUnitPerimeterPath();

            var polygon = (IPolygon)GeometryUtils.FromXmlFile(xmlFile);

            var shapeMsg = ProtobufGeometryUtils.ToShapeMsg(
                polygon, ShapeMsg.FormatOneofCase.EsriShape,
                SpatialReferenceMsg.FormatOneofCase.SpatialReferenceEsriXml);

            IGeometry rehydrated = ProtobufGeometryUtils.FromShapeMsg(shapeMsg);

            Assert.NotNull(rehydrated);
            Assert.IsTrue(GeometryUtils.AreEqual(polygon, rehydrated));
            Assert.IsTrue(SpatialReferenceUtils.AreEqual(polygon.SpatialReference,
                                                         rehydrated.SpatialReference, true, true));

            // ... and WKB
            var wkbWriter = new WkbGeometryWriter();

            byte[] wkb = wkbWriter.WriteGeometry(polygon);

            var wkbShapeMsg = new ShapeMsg()
            {
                Wkb = ByteString.CopyFrom(wkb)
            };

            IGeometry rehydratedFromWkb = ProtobufGeometryUtils.FromShapeMsg(wkbShapeMsg);

            Assert.IsTrue(GeometryUtils.AreEqual(polygon, rehydratedFromWkb));
            Assert.IsTrue(
                SpatialReferenceUtils.AreEqual(polygon.SpatialReference,
                                               rehydrated.SpatialReference));

            // ... and envelope
            IEnvelope envelope = polygon.Envelope;

            var envShapeMsg = new ShapeMsg()
            {
                Envelope = new EnvelopeMsg()
                {
                    XMin = envelope.XMin,
                    YMin = envelope.YMin,
                    XMax = envelope.XMax,
                    YMax = envelope.YMax
                },
                SpatialReference = new SpatialReferenceMsg()
                {
                    SpatialReferenceWkid =
                        (int)WellKnownHorizontalCS.LV95
                }
            };

            IEnvelope rehydratedEnvelope =
                (IEnvelope)ProtobufGeometryUtils.FromShapeMsg(envShapeMsg);

            Assert.IsTrue(GeometryUtils.AreEqual(envelope, rehydratedEnvelope));
        }
        private static IList <IPoint> PointsFromShapeMsg([CanBeNull] ShapeMsg shapeMsg)
        {
            var geometry = ProtobufGeometryUtils.FromShapeMsg(shapeMsg);

            if (geometry == null)
            {
                return(null);
            }

            return(GeometryUtils.GetPoints(geometry).ToList());
        }
        public static AdvancedReshapeResponse Reshape(
            [NotNull] AdvancedReshapeRequest request)
        {
            var polyline = (IPolyline)ProtobufGeometryUtils.FromShapeMsg(request.ReshapePaths);

            List <IPath> reshapePaths = GeometryUtils.GetPaths(Assert.NotNull(polyline)).ToList();

            GeometryReshaperBase reshaper = CreateReshaper(request, reshapePaths);

            bool useNonDefaultReshapeSide = request.UseNonDefaultReshapeSide;

            var notifications = new NotificationCollection();

            IDictionary <IGeometry, NotificationCollection> reshapedGeometries =
                reshaper.Reshape(reshapePaths, useNonDefaultReshapeSide, notifications);

            Assert.NotNull(reshapedGeometries, "No reshaped geometries");

            if (reshapedGeometries.Count == 0)
            {
                return(NoReshapeResponse(notifications));
            }

            var response = new AdvancedReshapeResponse();

            if (reshaper.ResultWithinOtherResultButNotInOriginal(
                    reshapedGeometries.Keys, out IPolygon containedPolygon))
            {
                response.OverlapPolygon = ProtobufGeometryUtils.ToShapeMsg(containedPolygon);
            }

            // Messages regarding some of the features that were not reshaped:
            if (notifications.Count > 0 && request.Features.Count > 1)
            {
                string overallMessage = notifications.Concatenate(". ");

                _msg.Info(overallMessage);
                response.WarningMessage = overallMessage;
            }

            // Junction-move, updating of adjacent lines is performed in Save:
            IList <IFeature> storedFeatures = reshaper.Save(reshapedGeometries);

            response.OpenJawReshapeHappened   = reshaper.OpenJawReshapeOcurred;
            response.OpenJawIntersectionCount = reshaper.OpenJawIntersectionPointCount;

            PackReshapeResponseFeatures(response, storedFeatures, reshapedGeometries,
                                        reshaper.OpenJawReshapeOcurred,
                                        reshaper.NotificationIsWarning);

            return(response);
        }
        private static IPath GetPath([CanBeNull] ShapeMsg polylineMsg)
        {
            IPolyline polyline = (IPolyline)ProtobufGeometryUtils.FromShapeMsg(polylineMsg);

            if (polyline == null || polyline.IsEmpty)
            {
                return(null);
            }

            IPath result = (IPath)((IGeometryCollection)polyline).Geometry[0];

            return(result);
        }
        public void CanConvertPolygonToFromShapeMsgFastEnough()
        {
            string xmlFile = TestData.GetHugeLockergesteinPolygonPath();

            var polygon = (IPolygon)GeometryUtils.FromXmlFile(xmlFile);

            var watch = Stopwatch.StartNew();

            var runCount = 100;

            ShapeMsg shapeMsg = null;

            for (int i = 0; i < runCount; i++)
            {
                shapeMsg = ProtobufGeometryUtils.ToShapeMsg(polygon);
            }

            long dehydrationAvg = watch.ElapsedMilliseconds / runCount;

            Console.WriteLine("Dehydration: {0}ms", dehydrationAvg);

            watch.Restart();

            IPoint point = new PointClass();

            IGeometry rehydrated = null;

            for (int i = 0; i < runCount; i++)
            {
                rehydrated = ProtobufGeometryUtils.FromShapeMsg(shapeMsg);

                // This is almost free:
                ((IPointCollection)rehydrated).QueryPoint(23, point);

                // This results in an extra 45ms on average:
                //point = ((IPointCollection) rehydrated).Point[23];
            }

            long rehydrationAvg = watch.ElapsedMilliseconds / runCount;

            Assert.IsTrue(GeometryUtils.AreEqual(polygon, rehydrated));

            Console.WriteLine("Rehydration: {0}ms", rehydrationAvg);

            Assert.Less(dehydrationAvg, 60);
            Assert.Less(rehydrationAvg, 30);

            // Typical output on a reasonable laptop:
            //Dehydration: 45ms
            //Rehydration: 20ms
        }
        private static ISegment GetSegment([CanBeNull] ShapeMsg segmentMsg)
        {
            IPolyline polyline =
                (IPolyline)ProtobufGeometryUtils.FromShapeMsg(segmentMsg);

            if (polyline == null || polyline.IsEmpty)
            {
                return(null);
            }

            ISegment result = ((ISegmentCollection)polyline).Segment[0];

            return(result);
        }
Esempio n. 10
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        private static GdbFeature CreateGdbFeature(GdbObjectMsg gdbObjectMsg,
                                                   IFeatureClass featureClass)
        {
            ISpatialReference classSpatialRef = DatasetUtils.GetSpatialReference(featureClass);

            IGeometry shape =
                ProtobufGeometryUtils.FromShapeMsg(gdbObjectMsg.Shape, classSpatialRef);

            var result = new GdbFeature(gdbObjectMsg.ObjectId, featureClass)
            {
                Shape = shape
            };

            return(result);
        }
Esempio n. 11
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        private static IGeometry GetShape(ResultObjectMsg resultObjectMsg)
        {
            ShapeMsg shapeMsg;

            switch (resultObjectMsg.FeatureCase)
            {
            case ResultObjectMsg.FeatureOneofCase.Update:
                shapeMsg = resultObjectMsg.Update.Shape;
                break;

            case ResultObjectMsg.FeatureOneofCase.Insert:
                shapeMsg = resultObjectMsg.Insert.InsertedObject.Shape;
                break;

            default:
                return(null);
            }

            return(shapeMsg == null ? null : ProtobufGeometryUtils.FromShapeMsg(shapeMsg));
        }
Esempio n. 12
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        public void CanReshapeAlongMinimalTolerance()
        {
            GetOverlappingPolygons(out GdbFeature sourceFeature, out GdbFeature targetFeature);

            // Insert an extra point:
            IPoint targetAlmostIntersectPoint = GeometryFactory.CreatePoint(
                2601000.001, 1200500.0, sourceFeature.Shape.SpatialReference);

            bool pointInserted = ReshapeUtils.EnsurePointsExistInTarget(
                targetFeature.Shape,
                new[] { targetAlmostIntersectPoint }, 0.001);

            Assert.IsTrue(pointInserted);
            Assert.AreEqual(6, GeometryUtils.GetPointCount(targetFeature.Shape));

            CalculateReshapeLinesRequest calculationRequest =
                CreateCalculateReshapeLinesRequest(sourceFeature, targetFeature);

            CalculateReshapeLinesResponse calculateResponse =
                ChangeAlongServiceUtils.CalculateReshapeLines(calculationRequest, null);

            Assert.AreEqual((int)ReshapeAlongCurveUsability.CanReshape,
                            calculateResponse.ReshapeLinesUsability);
            AssertReshapeLineCount(calculateResponse.ReshapeLines, 2, 2);

            int insideLineIndex =
                GetInsideReshapeLineIndex(calculateResponse.ReshapeLines, sourceFeature.Shape);

            IPolyline insideLine =
                (IPolyline)ProtobufGeometryUtils.FromShapeMsg(
                    calculateResponse.ReshapeLines[insideLineIndex].Path);

            Assert.NotNull(insideLine);
            Assert.AreNotEqual(1000.0, (insideLine).Length);

            // NOTE: If IntersectionUtils.UseCustomIntersect = true the from point is exactly on the inserted point
            //       Otherwise it's somewhere between - so we cannot do the exact comparison
            Assert.AreNotEqual(insideLine.FromPoint.X, 2601000.0);
            Assert.AreNotEqual(insideLine.ToPoint.X, 2601000.0);

            //
            // Reshape the default side:
            ApplyReshapeLinesRequest applyRequest = new ApplyReshapeLinesRequest();

            applyRequest.ReshapeLines.Add(calculateResponse.ReshapeLines[insideLineIndex]);
            applyRequest.CalculationRequest       = calculationRequest;
            applyRequest.InsertVerticesInTarget   = false;
            applyRequest.UseNonDefaultReshapeSide = false;

            ApplyReshapeLinesResponse applyResponse =
                ChangeAlongServiceUtils.ApplyReshapeLines(applyRequest, null);

            Assert.AreEqual(1, applyResponse.ResultFeatures.Count);

            GdbObjectMsg updatedFeatureMsg = applyResponse.ResultFeatures[0].Update;
            IGeometry    updatedGeometry   = ProtobufGeometryUtils.FromShapeMsg(updatedFeatureMsg.Shape);

            Assert.IsNotNull(updatedGeometry);
            Assert.Greater(((IArea)updatedGeometry).Area, 1000.0 * 1000.0 * 3 / 4);

            // Check the new reshape line:
            AssertReshapeLineCount(applyResponse.NewReshapeLines, 1, 1);

            Assert.AreEqual((int)ReshapeAlongCurveUsability.CanReshape,
                            applyResponse.ReshapeLinesUsability);

            //
            //
            // The same using the minimum tolerance:
            //
            calculationRequest.Tolerance = 0;

            calculateResponse =
                ChangeAlongServiceUtils.CalculateReshapeLines(calculationRequest, null);

            Assert.AreEqual((int)ReshapeAlongCurveUsability.CanReshape,
                            calculateResponse.ReshapeLinesUsability);
            AssertReshapeLineCount(calculateResponse.ReshapeLines, 2, 2);

            insideLineIndex =
                GetInsideReshapeLineIndex(calculateResponse.ReshapeLines, sourceFeature.Shape);

            insideLine =
                (IPolyline)ProtobufGeometryUtils.FromShapeMsg(
                    calculateResponse.ReshapeLines[insideLineIndex].Path);

            Assert.NotNull(insideLine);
            Assert.AreEqual(1000.0, insideLine.Length, 0.000000001);

            // NOTE: If IntersectionUtils.UseCustomIntersect = true the from point is exactly on the inserted point
            //       Otherwise it's somewhere between - so we cannot do the exact comparison
            Assert.AreEqual(2601000.0, insideLine.FromPoint.X);
            Assert.AreEqual(1200500.0, insideLine.FromPoint.Y);

            //
            // Apply with minimum tolerance:
            applyRequest = new ApplyReshapeLinesRequest();

            applyRequest.ReshapeLines.Add(calculateResponse.ReshapeLines[insideLineIndex]);
            applyRequest.CalculationRequest       = calculationRequest;
            applyRequest.InsertVerticesInTarget   = false;
            applyRequest.UseNonDefaultReshapeSide = false;

            applyResponse =
                ChangeAlongServiceUtils.ApplyReshapeLines(applyRequest, null);

            Assert.AreEqual(1, applyResponse.ResultFeatures.Count);

            updatedFeatureMsg = applyResponse.ResultFeatures[0].Update;

            updatedGeometry = ProtobufGeometryUtils.FromShapeMsg(updatedFeatureMsg.Shape);

            Assert.IsNotNull(updatedGeometry);
            Assert.AreEqual(1000 * 1000 * 3 / 4, ((IArea)updatedGeometry).Area);

            // Check the new remaining reshape line (outside)
            AssertReshapeLineCount(applyResponse.NewReshapeLines, 1, 1);
            Assert.AreEqual((int)ReshapeAlongCurveUsability.CanReshape,
                            applyResponse.ReshapeLinesUsability);

            IPolyline outsideLine = (IPolyline)ProtobufGeometryUtils.FromShapeMsg(
                applyResponse.NewReshapeLines[0].Path);

            Assert.NotNull(outsideLine);
            Assert.AreEqual(3000.0, outsideLine.Length, 0.000000001);

            // NOTE: If IntersectionUtils.UseCustomIntersect = true the from point is exactly on the inserted point
            //       Otherwise it's somewhere between - so we cannot do the exact comparison
            Assert.AreEqual(2601000.0, outsideLine.ToPoint.X);
            Assert.AreEqual(1200500.0, outsideLine.ToPoint.Y);
        }
Esempio n. 13
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        public void CanCalculateOverlaps()
        {
            var fClass =
                new GdbFeatureClass(123, "TestFC", esriGeometryType.esriGeometryPolygon);

            var sr = SpatialReferenceUtils.CreateSpatialReference(
                WellKnownHorizontalCS.LV95,
                WellKnownVerticalCS.LN02);

            fClass.SpatialReference = sr;

            IPolygon polygon1 = GeometryFactory.CreatePolygon(
                GeometryFactory.CreatePoint(2600000, 1200000, sr),
                GeometryFactory.CreatePoint(2601000, 1201000, sr));

            polygon1.SpatialReference = sr;

            GdbFeature sourceFeature = new GdbFeature(42, fClass)
            {
                Shape = polygon1
            };

            IPolygon polygon2 = GeometryFactory.CreatePolygon(
                GeometryFactory.CreatePoint(2600500, 1200500, sr),
                GeometryFactory.CreatePoint(2601500, 1201500, sr));

            polygon2.SpatialReference = sr;

            GdbFeature targetFeature = new GdbFeature(43, fClass)
            {
                Shape = polygon2
            };

            var sourceFeatureMsg = ProtobufGdbUtils.ToGdbObjectMsg(sourceFeature);
            var targetFeatureMsg = ProtobufGdbUtils.ToGdbObjectMsg(targetFeature);

            var objectClassMsg = ProtobufGdbUtils.ToObjectClassMsg(sourceFeature.Class);

            CalculateOverlapsRequest calculationRequest = new CalculateOverlapsRequest()
            {
                ClassDefinitions =
                {
                    objectClassMsg
                },
                SourceFeatures =
                {
                    sourceFeatureMsg
                },
                TargetFeatures =
                {
                    targetFeatureMsg
                }
            };

            CalculateOverlapsResponse response =
                RemoveOverlapsServiceUtils.CalculateOverlaps(calculationRequest, null);

            Assert.AreEqual(1, response.Overlaps.Count);

            List <ShapeMsg> shapeBufferList =
                response.Overlaps.SelectMany(kvp => kvp.Overlaps).ToList();

            List <IPolygon> resultPolys =
                ProtobufGeometryUtils.FromShapeMsgList <IPolygon>(shapeBufferList);

            Assert.AreEqual(1, resultPolys.Count);

            Assert.AreEqual(1000 * 1000 / 4, ((IArea)resultPolys[0]).Area);

            // Now the removal:
            RemoveOverlapsRequest removeRequest = new RemoveOverlapsRequest();

            removeRequest.ClassDefinitions.AddRange(calculationRequest.ClassDefinitions);
            removeRequest.SourceFeatures.AddRange(calculationRequest.SourceFeatures);
            removeRequest.Overlaps.Add(response.Overlaps);

            RemoveOverlapsResponse removeResponse =
                RemoveOverlapsServiceUtils.RemoveOverlaps(removeRequest);

            Assert.AreEqual(1, removeResponse.ResultsByFeature.Count);
            ResultGeometriesByFeature resultByFeature = removeResponse.ResultsByFeature[0];

            GdbObjectReference originalObjRef = new GdbObjectReference(
                resultByFeature.OriginalFeatureRef.ClassHandle,
                resultByFeature.OriginalFeatureRef.ObjectId);

            Assert.AreEqual(new GdbObjectReference(sourceFeature), originalObjRef);

            var updatedGeometry =
                ProtobufGeometryUtils.FromShapeMsg(resultByFeature.UpdatedGeometry);

            Assert.IsNotNull(updatedGeometry);
            Assert.AreEqual(1000 * 1000 * 3 / 4, ((IArea)updatedGeometry).Area);

            Assert.AreEqual(0, resultByFeature.NewGeometries.Count);
        }
Esempio n. 14
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        public void CanRemoveOverlaps()
        {
            var fClass =
                new GdbFeatureClass(123, "TestFC", esriGeometryType.esriGeometryPolygon);

            var sr = SpatialReferenceUtils.CreateSpatialReference(
                WellKnownHorizontalCS.LV95,
                WellKnownVerticalCS.LN02);

            IPolygon polygon1 = GeometryFactory.CreatePolygon(
                GeometryFactory.CreatePoint(2600000, 1200000, sr),
                GeometryFactory.CreatePoint(2601000, 1201000, sr));

            polygon1.SpatialReference = sr;

            GdbFeature sourceFeature = new GdbFeature(42, fClass)
            {
                Shape = polygon1
            };

            IPolygon polygon2 = GeometryFactory.CreatePolygon(
                GeometryFactory.CreatePoint(2600500, 1200500, sr),
                GeometryFactory.CreatePoint(2601500, 1201500, sr));

            polygon2.SpatialReference = sr;

            GdbFeature targetFeature = new GdbFeature(43, fClass)
            {
                Shape = polygon2
            };

            IPolygon overlap = GeometryFactory.CreatePolygon(
                GeometryFactory.CreatePoint(2600500, 1200500, sr),
                GeometryFactory.CreatePoint(2601000, 1201000, sr));

            overlap.SpatialReference = sr;

            var sourceFeatureMsg = ProtobufGdbUtils.ToGdbObjectMsg(sourceFeature);
            var targetFeatureMsg = ProtobufGdbUtils.ToGdbObjectMsg(targetFeature);

            var objectClassMsg = ProtobufGdbUtils.ToObjectClassMsg(sourceFeature.Class);

            var removeRequest = new RemoveOverlapsRequest()
            {
                ClassDefinitions =
                {
                    objectClassMsg
                },
                SourceFeatures =
                {
                    sourceFeatureMsg
                },
                UpdatableTargetFeatures =
                {
                    targetFeatureMsg
                }
            };

            var overlapsMsg = new OverlapMsg();

            overlapsMsg.OriginalFeatureRef = new GdbObjRefMsg()
            {
                ClassHandle = sourceFeatureMsg.ClassHandle,
                ObjectId    = sourceFeatureMsg.ObjectId
            };

            overlapsMsg.Overlaps.Add(ProtobufGeometryUtils.ToShapeMsg(overlap));

            removeRequest.Overlaps.Add(overlapsMsg);

            RemoveOverlapsResponse removeResponse =
                RemoveOverlapsServiceUtils.RemoveOverlaps(removeRequest);

            Assert.AreEqual(1, removeResponse.ResultsByFeature.Count);
            ResultGeometriesByFeature resultByFeature = removeResponse.ResultsByFeature[0];

            GdbObjectReference originalObjRef = new GdbObjectReference(
                resultByFeature.OriginalFeatureRef.ClassHandle,
                resultByFeature.OriginalFeatureRef.ObjectId);

            Assert.AreEqual(new GdbObjectReference(sourceFeature), originalObjRef);

            IGeometry updatedGeometry =
                ProtobufGeometryUtils.FromShapeMsg(resultByFeature.UpdatedGeometry);

            Assert.IsNotNull(updatedGeometry);
            Assert.AreEqual(1000 * 1000 * 3 / 4, ((IArea)updatedGeometry).Area);

            Assert.AreEqual(0, resultByFeature.NewGeometries.Count);

            IFeature updatedTarget =
                ProtobufConversionUtils.FromGdbObjectMsgList(removeResponse.TargetFeaturesToUpdate,
                                                             removeRequest.ClassDefinitions)
                .Single();

            int pointCount = GeometryUtils.GetPointCount(updatedTarget.Shape);

            Assert.AreEqual(5 + 2, pointCount);
        }
Esempio n. 15
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        public void CanCutMultipleSourcesAlong()
        {
            GetOverlappingPolygons(out GdbFeature source1Feature, out GdbFeature source2Feature);

            IFeatureClass fClass = (IFeatureClass)source1Feature.Class;

            IFeature cutFeature = fClass.CreateFeature();

            cutFeature.Shape =
                GeometryFactory.CreatePolygon(
                    GeometryFactory.CreatePoint(2600000, 1200750),
                    GeometryFactory.CreatePoint(2602000, 1202000));
            cutFeature.Store();

            var source1FeatureMsg = ProtobufGdbUtils.ToGdbObjectMsg(source1Feature);
            var source2FeatureMsg = ProtobufGdbUtils.ToGdbObjectMsg(source2Feature);

            var targetFeatureMsg = ProtobufGdbUtils.ToGdbObjectMsg(cutFeature);

            var objectClassMsg = ProtobufGdbUtils.ToObjectClassMsg(source1Feature.Class);

            var calculationRequest = new CalculateCutLinesRequest();

            calculationRequest.ClassDefinitions.Add(objectClassMsg);
            calculationRequest.SourceFeatures.Add(source1FeatureMsg);
            calculationRequest.SourceFeatures.Add(source2FeatureMsg);

            calculationRequest.TargetFeatures.Add(targetFeatureMsg);

            calculationRequest.Tolerance = -1;

            CalculateCutLinesResponse calculateResponse =
                ChangeAlongServiceUtils.CalculateCutLines(calculationRequest, null);

            Assert.AreEqual(ReshapeAlongCurveUsability.CanReshape,
                            (ReshapeAlongCurveUsability)calculateResponse.ReshapeLinesUsability);

            AssertReshapeLineCount(calculateResponse.CutLines, 2, 2);

            Assert.AreEqual(source1Feature.OID, calculateResponse.CutLines[0].Source.ObjectId);
            Assert.AreEqual(source2Feature.OID, calculateResponse.CutLines[1].Source.ObjectId);

            foreach (ReshapeLineMsg cutLineMsg in calculateResponse.CutLines)
            {
                IPolyline reshapeLine =
                    (IPolyline)ProtobufGeometryUtils.FromShapeMsg(cutLineMsg.Path);

                Assert.NotNull(reshapeLine);
                Assert.AreEqual(1000, reshapeLine.Length);
            }

            //
            // Cutting using just one of the lines:
            //
            var applyRequest = new ApplyCutLinesRequest();

            applyRequest.CutLines.Add(calculateResponse.CutLines[0]);
            applyRequest.CalculationRequest     = calculationRequest;
            applyRequest.InsertVerticesInTarget = false;

            ApplyCutLinesResponse applyResponse =
                ChangeAlongServiceUtils.ApplyCutLines(applyRequest, null);

            Assert.AreEqual(2, applyResponse.ResultFeatures.Count);

            GdbObjectMsg updatedFeatureMsg =
                applyResponse.ResultFeatures.First(
                    r => r.FeatureCase == ResultObjectMsg.FeatureOneofCase.Update).Update;

            GdbObjectReference updatedObjRef =
                new GdbObjectReference(updatedFeatureMsg.ClassHandle, updatedFeatureMsg.ObjectId);

            Assert.AreEqual(new GdbObjectReference(source1Feature), updatedObjRef);

            // Check the new reshape line:
            AssertReshapeLineCount(applyResponse.NewCutLines, 1, 1);

            Assert.AreEqual(ReshapeAlongCurveUsability.CanReshape,
                            (ReshapeAlongCurveUsability)applyResponse.CutLinesUsability);

            //
            // Cutting using both lines:
            //
            applyRequest = new ApplyCutLinesRequest();

            applyRequest.CutLines.AddRange(calculateResponse.CutLines);
            applyRequest.CalculationRequest     = calculationRequest;
            applyRequest.InsertVerticesInTarget = false;

            applyResponse = ChangeAlongServiceUtils.ApplyCutLines(applyRequest, null);

            Assert.AreEqual(4, applyResponse.ResultFeatures.Count);

            // Check the new reshape line:
            AssertReshapeLineCount(applyResponse.NewCutLines, 0, 0);

            Assert.AreEqual(ReshapeAlongCurveUsability.NoReshapeCurves,
                            (ReshapeAlongCurveUsability)applyResponse.CutLinesUsability);
        }
Esempio n. 16
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        public void CanCutAlongUsingZSources()
        {
            GetOverlappingPolygons(out GdbFeature sourceFeature, out GdbFeature targetFeature);

            GeometryUtils.MakeZAware(sourceFeature.Shape);
            GeometryUtils.MakeZAware(targetFeature.Shape);

            var   normal     = new Vector(new[] { 0.5, 0.5, 2 });
            Pnt3D planePoint = new Pnt3D(2600000, 1200000, 600);

            Plane3D sourcePlane = new Plane3D(normal, planePoint);

            ChangeAlongZUtils.AssignZ((IPointCollection)sourceFeature.Shape, sourcePlane);

            GeometryUtils.ApplyConstantZ(targetFeature.Shape, 500);

            CalculateCutLinesRequest calculationRequest =
                CreateCalculateCutLinesRequest(sourceFeature, targetFeature);

            CalculateCutLinesResponse calculateResponse =
                ChangeAlongServiceUtils.CalculateCutLines(calculationRequest, null);

            Assert.AreEqual(ReshapeAlongCurveUsability.CanReshape,
                            (ReshapeAlongCurveUsability)calculateResponse.ReshapeLinesUsability);

            AssertReshapeLineCount(calculateResponse.CutLines, 1, 1);

            IPolyline reshapeLine =
                (IPolyline)ProtobufGeometryUtils.FromShapeMsg(calculateResponse.CutLines[0].Path);

            Assert.NotNull(reshapeLine);
            Assert.AreEqual(1000, (reshapeLine).Length);

            Linestring cutLinestring =
                GeometryConversionUtils.GetLinestring(GeometryUtils.GetPaths(reshapeLine).Single());

            Pnt3D midPoint = (Pnt3D)cutLinestring.GetPointAlong(0.5, true);

            List <Pnt3D> points = GeometryConversionUtils.GetPntList(reshapeLine);

            Assert.IsTrue(points.All(p => MathUtils.AreEqual(p.Z, 500.0)));

            //
            // Cutting - TargetZ
            //
            var applyRequest = new ApplyCutLinesRequest();

            applyRequest.CutLines.Add(calculateResponse.CutLines[0]);
            applyRequest.CalculationRequest     = calculationRequest;
            applyRequest.InsertVerticesInTarget = false;
            applyRequest.ChangedVerticesZSource = (int)ChangeAlongZSource.Target;

            ApplyCutLinesResponse applyResponse =
                ChangeAlongServiceUtils.ApplyCutLines(applyRequest, null);

            Assert.AreEqual(2, applyResponse.ResultFeatures.Count);

            List <IGeometry> cutGeometries =
                applyResponse.ResultFeatures.Select(GetShape).ToList();

            Assert.AreEqual(1000 * 1000, cutGeometries.Sum(g => ((IArea)g).Area));

            List <MultiPolycurve> multiPolycurves =
                cutGeometries
                .Select(g => GeometryConversionUtils.CreateMultiPolycurve((IPolycurve)g))
                .ToList();

            foreach (MultiPolycurve multiPolycurve in multiPolycurves)
            {
                Line3D segment = multiPolycurve.FindSegments(midPoint, 0.001).First().Value;
                Assert.AreEqual(500, segment.StartPoint.Z);
                Assert.AreEqual(500, segment.EndPoint.Z);
            }

            //
            // Cutting - Interpolate
            //
            applyRequest = new ApplyCutLinesRequest();

            applyRequest.CutLines.Add(calculateResponse.CutLines[0]);
            applyRequest.CalculationRequest     = calculationRequest;
            applyRequest.InsertVerticesInTarget = false;
            applyRequest.ChangedVerticesZSource = (int)ChangeAlongZSource.InterpolatedSource;

            applyResponse = ChangeAlongServiceUtils.ApplyCutLines(applyRequest, null);

            Assert.AreEqual(2, applyResponse.ResultFeatures.Count);

            cutGeometries = applyResponse.ResultFeatures.Select(GetShape).ToList();

            Assert.AreEqual(1000 * 1000, cutGeometries.Sum(g => ((IArea)g).Area));

            multiPolycurves =
                cutGeometries
                .Select(g => GeometryConversionUtils.CreateMultiPolycurve((IPolycurve)g))
                .ToList();

            foreach (MultiPolycurve multiPolycurve in multiPolycurves)
            {
                List <Line3D> segments
                    = multiPolycurve.FindSegments(midPoint, 0.001)
                      .Select(kvp => kvp.Value).ToList();

                Assert.AreEqual(2, segments.Count);

                // Check if they are properly ordered and same length
                Assert.AreEqual(segments[0].EndPoint, segments[1].StartPoint);
                Assert.AreEqual(segments[0].Length2D, segments[1].Length2D);

                // Check if they are interpolated
                double average = (segments[0].StartPoint.Z + segments[1].EndPoint.Z) / 2;

                Assert.AreEqual(average, segments[0].EndPoint.Z);
            }

            //
            // Cutting - Plane
            //
            applyRequest = new ApplyCutLinesRequest();

            applyRequest.CutLines.Add(calculateResponse.CutLines[0]);
            applyRequest.CalculationRequest     = calculationRequest;
            applyRequest.InsertVerticesInTarget = false;
            applyRequest.ChangedVerticesZSource = (int)ChangeAlongZSource.SourcePlane;

            applyResponse = ChangeAlongServiceUtils.ApplyCutLines(applyRequest, null);

            Assert.AreEqual(2, applyResponse.ResultFeatures.Count);

            cutGeometries = applyResponse.ResultFeatures.Select(GetShape).ToList();

            Assert.AreEqual(1000 * 1000, cutGeometries.Sum(g => ((IArea)g).Area));

            multiPolycurves =
                cutGeometries
                .Select(g => GeometryConversionUtils.CreateMultiPolycurve((IPolycurve)g))
                .ToList();

            foreach (MultiPolycurve multiPolycurve in multiPolycurves)
            {
                bool?coplanar = ChangeAlongZUtils.AreCoplanar(
                    multiPolycurve.GetPoints().ToList(), sourcePlane,
                    0.01, out double _, out string _);

                Assert.IsTrue(coplanar);
            }
        }
        private static GeometryReshaperBase CreateReshaper(
            AdvancedReshapeRequest request, IList <IPath> reshapePaths)
        {
            GeometryReshaperBase result;

            bool allowOpenJaw           = request.AllowOpenJawReshape;
            bool moveOpenJawEndJunction = request.MoveOpenJawEndJunction;

            IList <IFeature> featuresToReshape =
                GetFeaturesToReshape(request, out GdbTableContainer container);

            if (featuresToReshape.Count == 1)
            {
                IFeature firstFeature = featuresToReshape[0];

                var singleGeometryReshaper =
                    new GeometryReshaper(firstFeature)
                {
                    AllowOpenJawReshape = allowOpenJaw
                };

                result = singleGeometryReshaper;
            }
            else
            {
                var stickyIntersections = new StickyIntersections(featuresToReshape);

                foreach (SourceTargetPointPair pair in request.StickyIntersections)
                {
                    stickyIntersections.SourceTargetPairs.Add(
                        new KeyValuePair <IPoint, IPoint>(
                            (IPoint)ProtobufGeometryUtils.FromShapeMsg(
                                pair.SourcePoint),
                            (IPoint)ProtobufGeometryUtils.FromShapeMsg(
                                pair.TargetPoint)));
                }

                result = new MultipleGeometriesReshaper(featuresToReshape)
                {
                    MultipleSourcesTreatIndividually = true,
                    MultipleSourcesTreatAsUnion      =
                        request.MultipleSourcesTryUnion,
                    MaxProlongationLengthFactor = 4,
                    StickyIntersectionPoints    = stickyIntersections
                };

                // Conditions for closed reshape paths being removed:
                // - multiple source geometries, at least two of which polygons
                // - multiple reshape paths (or a single closed path)
                // ... consider checking that the ring-path is completely inside the outermost ring of the source polygon's union
                //     or at least that several polygons are intersected by the sketch geometry
                if ((reshapePaths.Count > 1) || reshapePaths.All(path => path.IsClosed))
                {
                    if (ContainsMultiplePolygonFeatures(featuresToReshape))
                    {
                        result.RemoveClosedReshapePathAreas = true;
                    }
                }
            }

            if (moveOpenJawEndJunction)
            {
                IList <IFeature> targetCandidates = ProtobufConversionUtils.FromGdbObjectMsgList(
                    request.PotentiallyConnectedFeatures, container);

                result.NetworkFeatureFinder =
                    new LinearNetworkGdbFeatureFinder(targetCandidates);

                result.NetworkFeatureUpdater =
                    new LinearNetworkNodeUpdater(result.NetworkFeatureFinder);
            }

            result.MoveLineEndJunction = moveOpenJawEndJunction;

            // TODO: Add to admin-options (i.e. central defaults only, no GUI) together with the threshold
            // _useSimplifiedReshapeSideDeterminationVertexThreshold in ReshapeInfo
            result.AllowSimplifiedReshapeSideDetermination = true;

            return(result);
        }
Esempio n. 18
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        public void CanCutAlong()
        {
            GetOverlappingPolygons(out GdbFeature sourceFeature, out GdbFeature targetFeature);

            CalculateCutLinesRequest calculationRequest =
                CreateCalculateCutLinesRequest(sourceFeature, targetFeature);

            CalculateCutLinesResponse calculateResponse =
                ChangeAlongServiceUtils.CalculateCutLines(calculationRequest, null);

            Assert.AreEqual(ReshapeAlongCurveUsability.CanReshape,
                            (ReshapeAlongCurveUsability)calculateResponse.ReshapeLinesUsability);

            AssertReshapeLineCount(calculateResponse.CutLines, 1, 1);

            IPolyline reshapeLine =
                (IPolyline)ProtobufGeometryUtils.FromShapeMsg(calculateResponse.CutLines[0].Path);

            Assert.NotNull(reshapeLine);
            Assert.AreEqual(1000, (reshapeLine).Length);

            //
            // Cutting
            //
            var applyRequest = new ApplyCutLinesRequest();

            applyRequest.CutLines.Add(calculateResponse.CutLines[0]);
            applyRequest.CalculationRequest     = calculationRequest;
            applyRequest.InsertVerticesInTarget = false;

            ApplyCutLinesResponse applyResponse =
                ChangeAlongServiceUtils.ApplyCutLines(applyRequest, null);

            Assert.AreEqual(2, applyResponse.ResultFeatures.Count);

            List <IGeometry> geometries = applyResponse.ResultFeatures.Select(GetShape).ToList();

            Assert.AreEqual(1000 * 1000, geometries.Sum(g => ((IArea)g).Area));

            ResultObjectMsg updateResultMsg =
                applyResponse.ResultFeatures.First(
                    r => r.FeatureCase == ResultObjectMsg.FeatureOneofCase.Update);

            GdbObjectReference updateObjRef =
                new GdbObjectReference(updateResultMsg.Update.ClassHandle,
                                       updateResultMsg.Update.ObjectId);

            Assert.AreEqual(new GdbObjectReference(sourceFeature), updateObjRef);

            IGeometry firstGeometry =
                ProtobufGeometryUtils.FromShapeMsg(updateResultMsg.Update.Shape);

            Assert.IsNotNull(firstGeometry);
            Assert.AreEqual(1000 * 1000 * 3 / 4, ((IArea)firstGeometry).Area);

            // Check the new reshape line:
            AssertReshapeLineCount(applyResponse.NewCutLines, 0, 0);

            Assert.AreEqual(ReshapeAlongCurveUsability.NoReshapeCurves,
                            (ReshapeAlongCurveUsability)applyResponse.CutLinesUsability);
        }
Esempio n. 19
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        public void CanReshapeAlongFilteredLinesByNoTargetOverlap()
        {
            GetOverlappingPolygons(out GdbFeature sourceFeature, out GdbFeature targetFeature);

            CalculateReshapeLinesRequest calculationRequest =
                CreateCalculateReshapeLinesRequest(sourceFeature, targetFeature);

            //
            // Filter by 'no target overlaps':
            //
            calculationRequest.FilterOptions = new ReshapeLineFilterOptionsMsg();
            calculationRequest.FilterOptions.ExcludeResultingInOverlaps = true;

            CalculateReshapeLinesResponse calculateResponse =
                ChangeAlongServiceUtils.CalculateReshapeLines(calculationRequest, null);

            Assert.AreEqual(ReshapeAlongCurveUsability.CanReshape,
                            (ReshapeAlongCurveUsability)calculateResponse.ReshapeLinesUsability);

            // 1 inside-source line and 1 (reshapable, but filtered) outside-source line.
            AssertReshapeLineCount(calculateResponse.ReshapeLines, 2, 2, 1);

            int insideLineIndex =
                GetInsideReshapeLineIndex(calculateResponse.ReshapeLines, sourceFeature.Shape);

            IPolyline insideLine =
                (IPolyline)ProtobufGeometryUtils.FromShapeMsg(
                    calculateResponse.ReshapeLines[insideLineIndex].Path);

            Assert.NotNull(insideLine);
            Assert.AreEqual(1000, insideLine.Length);

            //
            // Reshape the default-side:
            ApplyReshapeLinesRequest applyRequest = new ApplyReshapeLinesRequest();

            applyRequest.ReshapeLines.Add(calculateResponse.ReshapeLines[insideLineIndex]);
            applyRequest.CalculationRequest       = calculationRequest;
            applyRequest.InsertVerticesInTarget   = false;
            applyRequest.UseNonDefaultReshapeSide = false;

            ApplyReshapeLinesResponse applyResponse =
                ChangeAlongServiceUtils.ApplyReshapeLines(applyRequest, null);

            Assert.AreEqual(1, applyResponse.ResultFeatures.Count);

            GdbObjectMsg updatedFeatureMsg = applyResponse.ResultFeatures[0].Update;

            IGeometry updatedGeometry = ProtobufGeometryUtils.FromShapeMsg(updatedFeatureMsg.Shape);

            Assert.IsNotNull(updatedGeometry);
            Assert.AreEqual(1000 * 1000 * 3 / 4, ((IArea)updatedGeometry).Area);

            // Check the new reshape line - there should be 1 reshapable, but filtered line
            AssertReshapeLineCount(applyResponse.NewReshapeLines, 1, 1, 1);

            // Technically the curve could be used to reshape (filtered out is not evaluated for usability)
            Assert.AreEqual(ReshapeAlongCurveUsability.CanReshape,
                            (ReshapeAlongCurveUsability)applyResponse.ReshapeLinesUsability);

            // Reshape the non-default side. This should probably not be possible but as it is currently
            // just labelled a reshape line filter, it can be justified to reshape anyway...
            applyRequest.UseNonDefaultReshapeSide = true;

            applyResponse =
                ChangeAlongServiceUtils.ApplyReshapeLines(applyRequest, null);

            Assert.AreEqual(1, applyResponse.ResultFeatures.Count);

            updatedFeatureMsg = applyResponse.ResultFeatures[0].Update;

            updatedGeometry = ProtobufGeometryUtils.FromShapeMsg(updatedFeatureMsg.Shape);

            Assert.IsNotNull(updatedGeometry);
            Assert.AreEqual(1000 * 1000 * 1 / 4, ((IArea)updatedGeometry).Area);

            // Check the new reshape line - there should be 1 reshapable, but filtered line
            AssertReshapeLineCount(applyResponse.NewReshapeLines, 1, 1, 1);

            // Technically the curve could be used to reshape (filtered out is not evaluated for usability)
            Assert.AreEqual(ReshapeAlongCurveUsability.CanReshape,
                            (ReshapeAlongCurveUsability)applyResponse.ReshapeLinesUsability);
        }
Esempio n. 20
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        public void CanReshapeAlongFilteredLinesByExtent()
        {
            GetOverlappingPolygons(out GdbFeature sourceFeature, out GdbFeature targetFeature);

            CalculateReshapeLinesRequest calculationRequest =
                CreateCalculateReshapeLinesRequest(sourceFeature, targetFeature);

            IEnvelope visibleExtent = sourceFeature.Shape.Envelope;

            visibleExtent.Expand(10, 10, false);
            calculationRequest.FilterOptions = new ReshapeLineFilterOptionsMsg();
            calculationRequest.FilterOptions.ClipLinesOnVisibleExtent = true;
            calculationRequest.FilterOptions.VisibleExtents.Add(
                ProtobufGeometryUtils.ToEnvelopeMsg(visibleExtent));

            CalculateReshapeLinesResponse calculateResponse =
                ChangeAlongServiceUtils.CalculateReshapeLines(calculationRequest, null);

            Assert.AreEqual((int)ReshapeAlongCurveUsability.CanReshape,
                            calculateResponse.ReshapeLinesUsability);
            // 1 inside-line and 2 extent-intersecting dangles to the outside within the extent.
            AssertReshapeLineCount(calculateResponse.ReshapeLines, 3, 1);

            int insideLineIndex =
                GetInsideReshapeLineIndex(calculateResponse.ReshapeLines, sourceFeature.Shape);

            IPolyline insideLine =
                (IPolyline)ProtobufGeometryUtils.FromShapeMsg(
                    calculateResponse.ReshapeLines[insideLineIndex].Path);

            Assert.NotNull(insideLine);
            Assert.AreEqual(1000, insideLine.Length);

            //
            // Reshape the non-default side (should be possible):
            //
            ApplyReshapeLinesRequest applyRequest = new ApplyReshapeLinesRequest();

            applyRequest.ReshapeLines.Add(calculateResponse.ReshapeLines[insideLineIndex]);
            applyRequest.CalculationRequest       = calculationRequest;
            applyRequest.InsertVerticesInTarget   = false;
            applyRequest.UseNonDefaultReshapeSide = true;

            ApplyReshapeLinesResponse applyResponse =
                ChangeAlongServiceUtils.ApplyReshapeLines(applyRequest, null);

            Assert.AreEqual(1, applyResponse.ResultFeatures.Count);

            GdbObjectMsg updatedFeatureMsg = applyResponse.ResultFeatures[0].Update;

            GdbObjectReference resultFeatureObjRef = new GdbObjectReference(
                updatedFeatureMsg.ClassHandle, updatedFeatureMsg.ObjectId);

            Assert.AreEqual(new GdbObjectReference(sourceFeature), resultFeatureObjRef);

            IGeometry updatedGeometry = ProtobufGeometryUtils.FromShapeMsg(updatedFeatureMsg.Shape);

            Assert.IsNotNull(updatedGeometry);
            Assert.AreEqual(1000 * 1000 * 1 / 4, ((IArea)updatedGeometry).Area);

            // Check the new reshape line - there should be 2 non-reshapable dangles
            AssertReshapeLineCount(applyResponse.NewReshapeLines, 2, 0);
            Assert.AreEqual(ReshapeAlongCurveUsability.InsufficientOrAmbiguousReshapeCurves,
                            (ReshapeAlongCurveUsability)applyResponse.ReshapeLinesUsability);
        }
Esempio n. 21
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        public void CanReshapeAlongNonDefaultSide()
        {
            GetOverlappingPolygons(out GdbFeature sourceFeature, out GdbFeature targetFeature);

            CalculateReshapeLinesRequest calculationRequest =
                CreateCalculateReshapeLinesRequest(sourceFeature, targetFeature);

            CalculateReshapeLinesResponse calculateResponse =
                ChangeAlongServiceUtils.CalculateReshapeLines(calculationRequest, null);

            Assert.AreEqual((int)ReshapeAlongCurveUsability.CanReshape,
                            calculateResponse.ReshapeLinesUsability);
            AssertReshapeLineCount(calculateResponse.ReshapeLines, 2, 2);

            List <ShapeMsg> reshapePathMsgs =
                calculateResponse.ReshapeLines.Select(l => l.Path).ToList();

            List <IPolyline> resultLines =
                ProtobufGeometryUtils.FromShapeMsgList <IPolyline>(reshapePathMsgs);

            int insideLineIndex = resultLines
                                  .Select((reshapePath, index) => (reshapePath, index))
                                  .First(rl => GeometryUtils.InteriorIntersects(
                                             rl.reshapePath, sourceFeature.Shape)).index;

            var insideLines =
                resultLines.Where(rl => GeometryUtils.InteriorIntersects(rl, sourceFeature.Shape))
                .ToList();

            Assert.AreEqual(1, insideLines.Count);

            Assert.AreEqual(1000, (insideLines[0]).Length);

            //
            // Reshape the default side:
            //
            ApplyReshapeLinesRequest applyRequest = new ApplyReshapeLinesRequest();

            applyRequest.ReshapeLines.Add(calculateResponse.ReshapeLines[insideLineIndex]);
            applyRequest.CalculationRequest       = calculationRequest;
            applyRequest.InsertVerticesInTarget   = false;
            applyRequest.UseNonDefaultReshapeSide = false;

            ApplyReshapeLinesResponse applyResponse =
                ChangeAlongServiceUtils.ApplyReshapeLines(applyRequest, null);

            Assert.AreEqual(1, applyResponse.ResultFeatures.Count);

            GdbObjectMsg updatedFeatureMsg = applyResponse.ResultFeatures[0].Update;

            GdbObjectReference resultFeatureObjRef = new GdbObjectReference(
                updatedFeatureMsg.ClassHandle, updatedFeatureMsg.ObjectId);

            Assert.AreEqual(new GdbObjectReference(sourceFeature), resultFeatureObjRef);

            IGeometry updatedGeometry = ProtobufGeometryUtils.FromShapeMsg(updatedFeatureMsg.Shape);

            Assert.IsNotNull(updatedGeometry);
            Assert.AreEqual(1000 * 1000 * 3 / 4, ((IArea)updatedGeometry).Area);

            // Check the new reshape line:
            AssertReshapeLineCount(applyResponse.NewReshapeLines, 1, 1);

            Assert.AreEqual((int)ReshapeAlongCurveUsability.CanReshape,
                            applyResponse.ReshapeLinesUsability);

            //
            // Reshape the non-default side:
            //
            applyRequest.UseNonDefaultReshapeSide = true;
            applyResponse =
                ChangeAlongServiceUtils.ApplyReshapeLines(applyRequest, null);

            Assert.AreEqual(1, applyResponse.ResultFeatures.Count);

            updatedFeatureMsg = applyResponse.ResultFeatures[0].Update;

            resultFeatureObjRef = new GdbObjectReference(
                updatedFeatureMsg.ClassHandle, updatedFeatureMsg.ObjectId);

            Assert.AreEqual(new GdbObjectReference(sourceFeature), resultFeatureObjRef);

            updatedGeometry = ProtobufGeometryUtils.FromShapeMsg(updatedFeatureMsg.Shape);

            Assert.IsNotNull(updatedGeometry);
            Assert.AreEqual((double)1000 * 1000 * 1 / 4, ((IArea)updatedGeometry).Area);
        }
Esempio n. 22
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        public void CanAdvancedReshapePolyline()
        {
            var fClass =
                new GdbFeatureClass(123, "TestFC", esriGeometryType.esriGeometryPolyline);

            var sr = SpatialReferenceUtils.CreateSpatialReference(
                WellKnownHorizontalCS.LV95,
                WellKnownVerticalCS.LN02);

            fClass.SpatialReference = sr;

            IPolyline sourcePolyline = CreatePolyline(
                GeometryFactory.CreatePoint(2600500, 1200000, sr),
                GeometryFactory.CreatePoint(2600500, 1200500, sr),
                GeometryFactory.CreatePoint(2601000, 1200500, sr));

            GdbFeature sourceFeature =
                new GdbFeature(42, fClass)
            {
                Shape = sourcePolyline
            };

            IPolyline sourceAdjacentPolyline = CreatePolyline(
                GeometryFactory.CreatePoint(2601000, 1200500, sr),
                GeometryFactory.CreatePoint(2601500, 1200500, sr),
                GeometryFactory.CreatePoint(2601500, 1200000, sr));

            GdbFeature sourceAdjacentFeature =
                new GdbFeature(43, fClass)
            {
                Shape = sourceAdjacentPolyline
            };

            IPolyline reshapePolyline = CreatePolyline(
                GeometryFactory.CreatePoint(2600500, 1200500, sr),
                GeometryFactory.CreatePoint(2600500, 1201000, sr));

            var sourceFeatureMsg         = ProtobufGdbUtils.ToGdbObjectMsg(sourceFeature);
            var reshapePaths             = ProtobufGeometryUtils.ToShapeMsg(reshapePolyline);
            var sourceAdjacentFeatureMsg = ProtobufGdbUtils.ToGdbObjectMsg(sourceAdjacentFeature);

            var objectClassMsg = ProtobufGdbUtils.ToObjectClassMsg(sourceFeature.Class);

            AdvancedReshapeRequest request = new AdvancedReshapeRequest()
            {
                ClassDefinitions =
                {
                    objectClassMsg
                },
                Features =
                {
                    sourceFeatureMsg
                },
                ReshapePaths                 = reshapePaths,
                AllowOpenJawReshape          = true,
                MoveOpenJawEndJunction       = true,
                PotentiallyConnectedFeatures =
                {
                    sourceAdjacentFeatureMsg
                }
            };

            AdvancedReshapeResponse response = AdvancedReshapeServiceUtils.Reshape(request);

            Assert.AreEqual(2, response.ResultFeatures.Count);

            GdbObjectMsg resultFeatureMsg = response.ResultFeatures[1].UpdatedFeature;

            Assert.AreEqual(sourceFeature.OID, resultFeatureMsg.ObjectId);
            Assert.AreEqual(sourceFeature.Class.ObjectClassID, resultFeatureMsg.ClassHandle);

            var resultPolyline =
                (IPolyline)ProtobufGeometryUtils.FromShapeMsg(resultFeatureMsg.Shape);

            Assert.NotNull(resultPolyline);

            Assert.IsTrue(GeometryUtils.AreEqual(resultPolyline.ToPoint, reshapePolyline.ToPoint));

            GdbObjectMsg resultAdjacentFeatureMsg = response.ResultFeatures[0].UpdatedFeature;
            var          resultAdjacentPolyline   =
                (IPolyline)ProtobufGeometryUtils.FromShapeMsg(resultAdjacentFeatureMsg.Shape);

            Assert.NotNull(resultAdjacentPolyline);
            Assert.IsTrue(
                GeometryUtils.AreEqual(resultAdjacentPolyline.FromPoint, reshapePolyline.ToPoint));

            // Non-default side:
            request.UseNonDefaultReshapeSide = true;

            response = AdvancedReshapeServiceUtils.Reshape(request);

            Assert.AreEqual(1, response.ResultFeatures.Count);
            resultFeatureMsg = response.ResultFeatures[0].UpdatedFeature;

            resultPolyline = (IPolyline)ProtobufGeometryUtils.FromShapeMsg(resultFeatureMsg.Shape);

            Assert.NotNull(resultPolyline);

            Assert.IsTrue(
                GeometryUtils.AreEqual(resultPolyline.FromPoint, reshapePolyline.ToPoint));
        }
Esempio n. 23
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        public void CanAdvancedReshapePolygon()
        {
            var fClass =
                new GdbFeatureClass(123, "TestFC", esriGeometryType.esriGeometryPolygon);

            var sr = SpatialReferenceUtils.CreateSpatialReference(
                WellKnownHorizontalCS.LV95,
                WellKnownVerticalCS.LN02);

            fClass.SpatialReference = sr;

            IPolygon polygon1 = GeometryFactory.CreatePolygon(
                GeometryFactory.CreatePoint(2600000, 1200000, sr),
                GeometryFactory.CreatePoint(2601000, 1201000, sr));

            polygon1.SpatialReference = sr;

            GdbFeature sourceFeature = new GdbFeature(42, fClass)
            {
                Shape = polygon1
            };

            IPath reshapePath = GeometryFactory.CreatePath(
                GeometryFactory.CreatePoint(2600500, 1200000, sr),
                GeometryFactory.CreatePoint(2600500, 1200500, sr),
                GeometryFactory.CreatePoint(2601000, 1200500, sr));

            reshapePath.SpatialReference = sr;

            IPolyline reshapePolyline = GeometryFactory.CreatePolyline(reshapePath);

            var sourceFeatureMsg = ProtobufGdbUtils.ToGdbObjectMsg(sourceFeature);
            var reshapePaths     = ProtobufGeometryUtils.ToShapeMsg(reshapePolyline);

            var objectClassMsg = ProtobufGdbUtils.ToObjectClassMsg(sourceFeature.Class);

            AdvancedReshapeRequest request = new AdvancedReshapeRequest()
            {
                ClassDefinitions =
                {
                    objectClassMsg
                },
                Features =
                {
                    sourceFeatureMsg
                },
                ReshapePaths = reshapePaths
            };

            AdvancedReshapeResponse response = AdvancedReshapeServiceUtils.Reshape(request);

            Assert.AreEqual(1, response.ResultFeatures.Count);

            GdbObjectMsg resultFeatureMsg = response.ResultFeatures[0].UpdatedFeature;

            Assert.AreEqual(sourceFeature.OID, resultFeatureMsg.ObjectId);
            Assert.AreEqual(sourceFeature.Class.ObjectClassID, resultFeatureMsg.ClassHandle);

            var resultPoly = (IPolygon)ProtobufGeometryUtils.FromShapeMsg(resultFeatureMsg.Shape);

            Assert.NotNull(resultPoly);

            double oneQuarter = 1000d * 1000d / 4d;

            Assert.AreEqual(3 * oneQuarter, ((IArea)resultPoly).Area);

            // Non-default side:
            request.UseNonDefaultReshapeSide = true;

            response = AdvancedReshapeServiceUtils.Reshape(request);

            Assert.AreEqual(1, response.ResultFeatures.Count);
            resultFeatureMsg = response.ResultFeatures[0].UpdatedFeature;

            resultPoly = (IPolygon)ProtobufGeometryUtils.FromShapeMsg(resultFeatureMsg.Shape);

            Assert.NotNull(resultPoly);

            Assert.AreEqual(oneQuarter, ((IArea)resultPoly).Area);
        }
Esempio n. 24
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        public void CanReshapeAlongInsertTargetVertices()
        {
            GetOverlappingPolygons(out GdbFeature sourceFeature, out GdbFeature targetFeature);

            CalculateReshapeLinesRequest calculationRequest =
                CreateCalculateReshapeLinesRequest(sourceFeature, targetFeature);

            CalculateReshapeLinesResponse calculateResponse =
                ChangeAlongServiceUtils.CalculateReshapeLines(calculationRequest, null);

            Assert.AreEqual((int)ReshapeAlongCurveUsability.CanReshape,
                            calculateResponse.ReshapeLinesUsability);
            AssertReshapeLineCount(calculateResponse.ReshapeLines, 2, 2);

            int insideLineIndex =
                GetInsideReshapeLineIndex(calculateResponse.ReshapeLines, sourceFeature.Shape);

            IPolyline insideLine =
                (IPolyline)ProtobufGeometryUtils.FromShapeMsg(
                    calculateResponse.ReshapeLines[insideLineIndex].Path);

            Assert.NotNull(insideLine);
            Assert.AreEqual(1000.0, insideLine.Length);

            //
            // Reshape the default side:
            //
            ApplyReshapeLinesRequest applyRequest = new ApplyReshapeLinesRequest();

            applyRequest.ReshapeLines.Add(calculateResponse.ReshapeLines[insideLineIndex]);
            applyRequest.CalculationRequest       = calculationRequest;
            applyRequest.InsertVerticesInTarget   = true;
            applyRequest.UseNonDefaultReshapeSide = false;

            ApplyReshapeLinesResponse applyResponse =
                ChangeAlongServiceUtils.ApplyReshapeLines(applyRequest, null);

            Assert.AreEqual(2, applyResponse.ResultFeatures.Count);

            ResultObjectMsg sourceResultMsg =
                applyResponse.ResultFeatures.First(
                    f => f.Update.ObjectId == sourceFeature.OID);

            IGeometry updatedSourceGeometry =
                ProtobufGeometryUtils.FromShapeMsg(sourceResultMsg.Update.Shape);

            Assert.IsNotNull(updatedSourceGeometry);
            Assert.AreEqual(1000 * 1000 * 3 / 4, ((IArea)updatedSourceGeometry).Area);

            ResultObjectMsg targetResultMsg =
                applyResponse.ResultFeatures.First(
                    f => f.Update.ObjectId == targetFeature.OID);

            IGeometry updatedTargetGeometry =
                ProtobufGeometryUtils.FromShapeMsg(targetResultMsg.Update.Shape);

            Assert.AreEqual(GeometryUtils.GetPointCount(targetFeature.Shape) + 2,
                            GeometryUtils.GetPointCount(updatedTargetGeometry));

            // Check the new reshape line:
            AssertReshapeLineCount(applyResponse.NewReshapeLines, 1, 1);
            Assert.AreEqual((int)ReshapeAlongCurveUsability.CanReshape,
                            applyResponse.ReshapeLinesUsability);
        }
Esempio n. 25
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        private ServiceCallStatus VerifyStandaloneXmlCore(
            StandaloneVerificationRequest request,
            IServerStreamWriter <StandaloneVerificationResponse> responseStream,
            ITrackCancel trackCancel)
        {
            // Machine login
            SetupUserNameProvider(Environment.UserName);

            try
            {
                VerificationParametersMsg parameters = request.Parameters;

                IGeometry perimeter =
                    ProtobufGeometryUtils.FromShapeMsg(parameters.Perimeter);

                XmlBasedVerificationService qaService = new XmlBasedVerificationService(
                    HtmlReportTemplatePath, QualitySpecificationTemplatePath);

                XmlQualitySpecificationMsg xmlSpecification = request.Specification;

                var dataSources = new List <DataSource>();
                foreach (string replacement in xmlSpecification.DataSourceReplacements)
                {
                    List <string> replacementStrings = StringUtils.SplitAndTrim(replacement, '|');
                    Assert.AreEqual(2, replacementStrings.Count,
                                    "Data source workspace is not of the format \"workspace_id | catalog_path\"");

                    var dataSource = new DataSource(replacementStrings[0], replacementStrings[0])
                    {
                        WorkspaceAsText = replacementStrings[1]
                    };

                    dataSources.Add(dataSource);
                }

                var aoi = perimeter == null ? null : new AreaOfInterest(perimeter);

                try
                {
                    qaService.ExecuteVerification(
                        xmlSpecification.Xml,
                        xmlSpecification.SelectedSpecificationName,
                        dataSources, aoi, null, parameters.TileSize,
                        request.OutputDirectory, IssueRepositoryType.FileGdb,
                        true, trackCancel);
                }
                catch (ArgumentException argumentException)
                {
                    _msg.Warn("Argument exception", argumentException);

                    return(ServiceCallStatus.Failed);
                }
            }
            catch (Exception e)
            {
                _msg.DebugFormat("Error during processing of request {0}", request);
                _msg.Error($"Error verifying quality: {e.Message}", e);

                if (!EnvironmentUtils.GetBooleanEnvironmentVariableValue(
                        "PROSUITE_QA_SERVER_KEEP_SERVING_ON_ERROR"))
                {
                    SetUnhealthy();
                }

                return(ServiceCallStatus.Failed);
            }

            return(trackCancel.Continue()
                                       ? ServiceCallStatus.Finished
                                       : ServiceCallStatus.Cancelled);
        }
Esempio n. 26
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        public void CanReshapeAlongBufferedTarget()
        {
            GetOverlappingPolygons(out GdbFeature sourceFeature, out GdbFeature targetFeature);

            CalculateReshapeLinesRequest calculationRequest =
                CreateCalculateReshapeLinesRequest(sourceFeature, targetFeature);

            double minSegmentLength = 2;

            calculationRequest.TargetBufferOptions = new TargetBufferOptionsMsg();
            calculationRequest.TargetBufferOptions.BufferDistance             = 10;
            calculationRequest.TargetBufferOptions.BufferMinimumSegmentLength = minSegmentLength;

            CalculateReshapeLinesResponse calculateResponse =
                ChangeAlongServiceUtils.CalculateReshapeLines(calculationRequest, null);

            Assert.AreEqual((int)ReshapeAlongCurveUsability.CanReshape,
                            calculateResponse.ReshapeLinesUsability);

            AssertReshapeLineCount(calculateResponse.ReshapeLines, 4, 4);

            List <ShapeMsg> reshapePathMsgs =
                calculateResponse.ReshapeLines.Select(l => l.Path).ToList();

            List <IPolyline> resultLines =
                ProtobufGeometryUtils.FromShapeMsgList <IPolyline>(reshapePathMsgs);

            int insideLineIndex = resultLines
                                  .Select((reshapePath, index) => (reshapePath, index))
                                  .OrderBy(rl => rl.reshapePath.Length)
                                  .First(rl => GeometryUtils.InteriorIntersects(
                                             rl.reshapePath, sourceFeature.Shape)).index;

            var insideLines =
                resultLines.Where(rl => GeometryUtils.InteriorIntersects(rl, sourceFeature.Shape))
                .ToList();

            Assert.AreEqual(2, insideLines.Count);

            foreach (IPolyline resultLine in resultLines)
            {
                Assert.AreNotEqual(1000, resultLine.Length);
                Assert.AreEqual(
                    0, GeometryUtils.GetShortSegments(resultLine, minSegmentLength).Count);
            }

            //
            // Reshape the default side:
            //
            ApplyReshapeLinesRequest applyRequest = new ApplyReshapeLinesRequest();

            applyRequest.ReshapeLines.Add(calculateResponse.ReshapeLines[insideLineIndex]);
            applyRequest.CalculationRequest       = calculationRequest;
            applyRequest.InsertVerticesInTarget   = false;
            applyRequest.UseNonDefaultReshapeSide = false;

            ApplyReshapeLinesResponse applyResponse =
                ChangeAlongServiceUtils.ApplyReshapeLines(applyRequest, null);

            Assert.AreEqual(1, applyResponse.ResultFeatures.Count);

            GdbObjectMsg updatedFeatureMsg = applyResponse.ResultFeatures[0].Update;

            GdbObjectReference resultFeatureObjRef = new GdbObjectReference(
                updatedFeatureMsg.ClassHandle, updatedFeatureMsg.ObjectId);

            Assert.AreEqual(new GdbObjectReference(sourceFeature), resultFeatureObjRef);

            IGeometry updatedGeometry = ProtobufGeometryUtils.FromShapeMsg(updatedFeatureMsg.Shape);

            // The shortest reshape line results in a greater remaining area:
            Assert.IsNotNull(updatedGeometry);
            Assert.Greater(((IArea)updatedGeometry).Area, 1000 * 1000 * 3 / (double)4);

            // Check the new reshape line:
            AssertReshapeLineCount(applyResponse.NewReshapeLines, 3, 3);
            Assert.AreEqual((int)ReshapeAlongCurveUsability.CanReshape,
                            applyResponse.ReshapeLinesUsability);
        }