Exemplo n.º 1
0
        /// <summary> This method is called by clients
        /// of the <see cref="ISegmentIntersector"/> class to process
        /// intersections for two segments of the {@link SegmentStrings} being intersected.
        /// Note that some clients (such as {@link MonotoneChain}s) may optimize away
        /// this call for segment pairs which they have determined do not intersect
        /// (e.g. by an disjoint envelope test).
        /// </summary>
        public void ProcessIntersections(SegmentString e0, int segIndex0,
                                         SegmentString e1, int segIndex1)
        {
            // don't bother intersecting a segment with itself
            if (e0 == e1 && segIndex0 == segIndex1)
            {
                return;
            }

            Coordinate p00 = e0.Coordinates[segIndex0];
            Coordinate p01 = e0.Coordinates[segIndex0 + 1];
            Coordinate p10 = e1.Coordinates[segIndex1];
            Coordinate p11 = e1.Coordinates[segIndex1 + 1];

            li.ComputeIntersection(p00, p01, p10, p11);

            if (li.HasIntersection)
            {
                if (li.IsInteriorIntersection())
                {
                    for (int intIndex = 0; intIndex < li.IntersectionNum; intIndex++)
                    {
                        interiorIntersections.Add(li.GetIntersection(intIndex));
                    }

                    e0.AddIntersections(li, segIndex0, 0);
                    e1.AddIntersections(li, segIndex1, 1);
                }
            }
        }
Exemplo n.º 2
0
        /// <summary>
        /// This method is called by clients of the <see cref="ISegmentIntersector"/> class to process
        /// intersections for two segments of the {@link SegmentStrings} being intersected.
        /// Note that some clients (such as {@link MonotoneChain}s) may optimize away
        /// this call for segment pairs which they have determined do not intersect
        /// (e.g. by an disjoint envelope test).
        /// </summary>
        public void ProcessIntersections(SegmentString e0, int segIndex0,
                                         SegmentString e1, int segIndex1)
        {
            if (e0 == e1 && segIndex0 == segIndex1)
            {
                return;
            }

            Coordinate p00 = e0.Coordinates[segIndex0];
            Coordinate p01 = e0.Coordinates[segIndex0 + 1];
            Coordinate p10 = e1.Coordinates[segIndex1];
            Coordinate p11 = e1.Coordinates[segIndex1 + 1];

            li.ComputeIntersection(p00, p01, p10, p11);

            if (li.HasIntersection)
            {
                //intersectionFound = true;
                numIntersections++;
                if (li.IsInteriorIntersection())
                {
                    numInteriorIntersections++;
                    this.hasInterior = true;
                }

                // if the segments are adjacent they have at least one trivial intersection,
                // the shared endpoint.  Don't bother adding it if it is the
                // only intersection.
                if (!IsTrivialIntersection(e0, segIndex0, e1, segIndex1))
                {
                    this.hasIntersection = true;
                    e0.AddIntersections(li, segIndex0, 0);
                    e1.AddIntersections(li, segIndex1, 1);

                    if (li.Proper)
                    {
                        numProperIntersections++;

                        this.hasProper         = true;
                        this.hasProperInterior = true;
                    }
                }
            }
        }