Пример #1
0
    public HexEdge GetHexDirectionOppositeEdge(
        Hex hex,
        HexDirections direction
        )
    {
        List <HexEdge> edges = GetOutEdgesList(hex);

        if (edges != null && edges.Count > 0)
        {
            foreach (HexEdge currentEdge in edges)
            {
                if (currentEdge.Direction == direction.Opposite())
                {
                    return(currentEdge);
                }
            }
        }

        return(null);
    }
Пример #2
0
    private TerrainTriangulationData TriangulateRiverBanks(
        TerrainTriangulationData data,
        HexRiverData riverData,
        HexDirections direction,
        float hexOuterRadius
        )
    {
        if (riverData.HasRiverInDirection(direction.Opposite()))
        {
/* Create a vertex 1/4th of the way from the center of the hex
 * to first solid corner of the previous edge, which is pointing
 * straight "down" toward the bottom of the hexagon for a left facing
 * edge.
 */
            data.riverCenterLeft = data.terrainCenter +
                                   HexagonPoint.GetFirstSolidCorner(
                direction.PreviousClockwise(),
                hexOuterRadius
                ) * 0.25f;

/* Create a vertex 1/4th of the way from the center of the hex
 * to the second solid corner of the next edge, which is pointing
 * straight "up" toward the top of the hexagon for a left facing edge.
 */
            data.riverCenterRight = data.terrainCenter +
                                    HexagonPoint.GetSecondSolidCorner(
                direction.NextClockwise(),
                hexOuterRadius
                ) * 0.25f;
        }

/* If the next direction has a sharp turn, there will be a river through
 * direction.Next() or direction.Previous(). Must align center line with
 * center line with edge between this river and the adjacent river.
 * Interpolate with an increased step to account for the rotation
 * of the center line.
 */
        else if (
            riverData.HasRiverInDirection(direction.NextClockwise())
            )
        {
            data.riverCenterLeft  = data.terrainCenter;
            data.riverCenterRight =
                Vector3.Lerp(
                    data.terrainCenter,
                    data.centerEdgeVertices.vertex5,
                    2f / 3f
                    );
        }
        else if (
            riverData.HasRiverInDirection(direction.PreviousClockwise())
            )
        {
            data.riverCenterLeft =
                Vector3.Lerp(
                    data.terrainCenter,
                    data.centerEdgeVertices.vertex1,
                    2f / 3f
                    );

            data.riverCenterRight = data.terrainCenter;
        }

/* If the hex has a river two directions next, or two directions
 * previous, there is a slight bend in the river. Need to push
 * the center line to the inside of the bend. Using
 * HexMetrics.innerToOuter to adjust for the fact that
 * the midpoint of a solid edge is closer to the center
 * of a hex than a solid edge corner.
 */
        else if (
            riverData.HasRiverInDirection(direction.NextClockwise2())
            )
        {
            data.riverCenterLeft = data.terrainCenter;

            data.riverCenterRight =
                data.terrainCenter +
                HexagonPoint.GetSolidEdgeMiddle(
                    direction.NextClockwise(),
                    hexOuterRadius
                    ) * (0.5f * HexagonConstants.INNER_TO_OUTER_RATIO);
        }
// Previous 2
        else
        {
            data.riverCenterLeft =
                data.terrainCenter +
                HexagonPoint.GetSolidEdgeMiddle(
                    direction.PreviousClockwise(),
                    hexOuterRadius
                    ) * (0.5f * HexagonConstants.INNER_TO_OUTER_RATIO);

            data.riverCenterRight = data.terrainCenter;
        }

/* Get the final location of the center by averaging
 * centerLeft and centerRight. For a straight through
 * river this average is the same as the center
 * of the hex. For a bend this moves the center
 * appropriately. Otherwise, all points are the same
 * and the center also remains at the center of the hex.
 */
        data.terrainCenter = Vector3.Lerp(
            data.riverCenterLeft,
            data.riverCenterRight,
            0.5f
            );

/* Create the middle edge vertices using points halfway between
 * centerLeft/centerRight and the 1st and 5th vertices of the
 * hexagons edge vertices for the given direction. Must use an
 * alternate constructor for the middle edge vertices object
 * because the length of the edge is 3/4ths rather than 1. To
 * keep the 2nd and 4th vertex in line with the rivers edges,
 * must interpolate by 1/6th instead of 1/3rd.
 */
        EdgeVertices middleEdgeVertices = new EdgeVertices(
            Vector3.Lerp(
                data.riverCenterLeft,
                data.centerEdgeVertices.vertex1,
                0.5f
                ),
            Vector3.Lerp(
                data.riverCenterRight,
                data.centerEdgeVertices.vertex5,
                0.5f
                ),
            1f / 6f
            );

/* Adjust the height of middle of the middle edge,
 * as well as the height of the center of the hexagon, to
 * the height of the middle of the outer edge of the
 * hexagon. The given edge of the hexagon has already
 * been adjusted to the height of the river bed.
 */
        middleEdgeVertices.vertex3.y =
            data.terrainCenter.y     =
                data.centerEdgeVertices.vertex3.y;

        data.middleEdgeVertices = middleEdgeVertices;
        return(data);
    }
Пример #3
0
 public bool HasRiverInOppositeDirection(HexDirections direction)
 {
     return
         (IncomingRivers[direction.Opposite()] ||
          OutgoingRivers[direction.Opposite()]);
 }
Пример #4
0
 public bool HasIncomingRiverInDirection(HexDirections direction)
 {
     return(IncomingRivers[direction.Opposite()]);
 }
Пример #5
0
    private WaterTriangulationData GetWaterData(
        Hex source,
        Hex neighbor,
        WaterTriangulationData waterTriData,
        HexDirections direction,
        float hexOuterRadius,
        int wrapSize
        )
    {
        waterTriData.waterSurfaceCenter   = source.Position;
        waterTriData.waterSurfaceCenter.y = source.WaterSurfaceY;

        waterTriData.sourceWaterEdge = new EdgeVertices(
            waterTriData.waterSurfaceCenter +
            HexagonPoint.GetFirstWaterCorner(
                direction,
                hexOuterRadius
                ),
            waterTriData.waterSurfaceCenter +
            HexagonPoint.GetSecondWaterCorner(
                direction,
                hexOuterRadius
                )
            );

        Vector3 neighborCenter = neighbor.Position;

        float hexInnerRadius =
            HexagonPoint.OuterToInnerRadius(hexOuterRadius);

        float hexInnerDiameter = hexInnerRadius * 2f;

// TODO: This will not work once the column index is removed from
//       Hex class.
// If the neighbor outside the wrap boundaries, adjust accordingly.
        if (neighbor.ColumnIndex < source.ColumnIndex - 1)
        {
            neighborCenter.x +=
                wrapSize * hexInnerDiameter;
        }
        else if (neighbor.ColumnIndex > source.ColumnIndex + 1)
        {
            neighborCenter.x -=
                wrapSize * hexInnerDiameter;
        }

        neighborCenter.y = waterTriData.waterSurfaceCenter.y;

        waterTriData.neighborWaterEdge = new EdgeVertices(
            neighborCenter + HexagonPoint.GetSecondSolidCorner(
                direction.Opposite(),
                hexOuterRadius
                ),
            neighborCenter + HexagonPoint.GetFirstSolidCorner(
                direction.Opposite(),
                hexOuterRadius
                )
            );

        return(waterTriData);
    }
    private TerrainTriangulationData TriangulateRoadAdjacentToRiver(
        Hex source,
        HexDirections direction,
        TerrainTriangulationData data,
        HexRiverData riverData,
        Dictionary <HexDirections, bool> roadEdges,
        float hexOuterRadius,
        int wrapSize,
        MapMeshChunkLayer roads,
        FeatureContainer features
        )
    {
//        bool hasRoadThroughEdge = hex.HasRoadThroughEdge(direction);
        bool hasRoadThroughEdge = roadEdges[direction];

//          bool previousHasRiver = hex.HasRiverThroughEdge(
//              direction.Previous()
//          );
        bool previousHasRiver = riverData.HasIncomingRiverInDirection(
            direction.PreviousClockwise()
            );

//        bool nextHasRiver = hex.HasRiverThroughEdge(direction.Next());
        bool nextHasRiver = riverData.HasIncomingRiverInDirection(
            direction.NextClockwise()
            );

        Vector2 interpolators = GetRoadInterpolators(
            source,
            direction,
            roadEdges
            );

        Vector3 roadCenter = data.terrainCenter;

//        if (hex.HasRiverBeginOrEnd) {
        if (riverData.HasRiverStartOrEnd)
        {
            roadCenter +=
                HexagonPoint.GetSolidEdgeMiddle(
//                    hex.RiverBeginOrEndDirection.Opposite(),
                    riverData.RiverStartOrEndDirection.Opposite(),
                    hexOuterRadius
                    ) *
                (1f / 3f);
        }
//        else if(hex.IncomingRiver == hex.OutgoingRiver.Opposite()) {
        else if (
            riverData.HasStraightRiver
            )
        {
            Vector3 corner;

//  If the previous hex has a river, the corner the center will be
//  moved toward is equal to the current direction + 1.
            if (previousHasRiver)
            {
                if (
                    !hasRoadThroughEdge &&
//                    !hex.HasRoadThroughEdge(direction.Next())
                    !roadEdges[direction.NextClockwise()]
                    )
                {
                    return(data);
                }
                corner = HexagonPoint.GetSecondSolidCorner(
                    direction,
                    hexOuterRadius
                    );
            }
// If the previous hex does not have a river, the corner the center will
// be moved toward is the same index as the current direction.
            else
            {
                if (
                    !hasRoadThroughEdge &&
//                    !hex.HasRoadThroughEdge(direction.Previous())
                    !roadEdges[direction.PreviousClockwise()]
                    )
                {
                    return(data);
                }

                corner = HexagonPoint.GetFirstSolidCorner(
                    direction,
                    hexOuterRadius
                    );
            }

/* Using the example of a river flowing from east to west or west to east, for all cases
 * this will result in the river being pushed either directly "up" north away from the
 * river or directly "down" south away from the river.
 */
            roadCenter += corner * 0.5f;

            if (
//                hex.IncomingRiver == direction.Next() &&
                riverData.IncomingRivers[direction.NextClockwise()] &&
//                hex.HasRoadThroughEdge(direction.Next2()) ||
                roadEdges[direction.NextClockwise2()] ||
//                hex.HasRoadThroughEdge(direction.Opposite())
                roadEdges[direction.Opposite()]
                )
            {
                features.AddBridge(
                    roadCenter,
                    data.terrainCenter - corner * 0.5f,
                    hexOuterRadius,
                    wrapSize
                    );
            }

            data.terrainCenter += corner * 0.25f;
        }

// If the river has a zigzag, then the incoming river will be the on the
// edge previous from the outgoing river or the incoming river will be on
// the next edge of the outoing river. In the case of the former, the
// index of the corner whose vector is pointing away from the river is the
// index of the incoming river + 1. Otherwise it is the index of the
// incoming river. In both cases, subtracting the road center by that
// vector times 0.2f is sufficent to push the road center away from the
// river.

//        else if (hex.IncomingRiver == hex.OutgoingRiver.Previous()) {
        else if (riverData.HasPreviousClockwiseCornerRiver)
        {
            roadCenter -= HexagonPoint.GetSecondCorner(
//                hex.IncomingRiver,
                riverData.AnyIncomingRiver,
                hexOuterRadius
                ) * 0.2f;
        }
//        else if (hex.IncomingRiver == hex.OutgoingRiver.Next()) {
        else if (riverData.HasNextClockwiseCornerRiver)
        {
            roadCenter -= HexagonPoint.GetFirstCorner(
//                hex.IncomingRiver,
                riverData.AnyIncomingRiver,
                hexOuterRadius
                ) * 0.2f;
        }

// If there is a river on the previous and next edges, the river has a
// slight bend. Need to pull the road center toward the current hex edge,
// which will shorten the road back away from the river.

        else if (previousHasRiver && nextHasRiver)
        {
            if (!hasRoadThroughEdge)
            {
                return(data);
            }

// Must account for difference in scale between corners and middles by
// using HexMetrics.innerToOuter.

            Vector3 offset =
                HexagonPoint.GetSolidEdgeMiddle(
                    direction,
                    hexOuterRadius
                    ) *
                HexagonConstants.INNER_TO_OUTER_RATIO;

            roadCenter         += offset * 0.7f;
            data.terrainCenter += offset * 0.5f;
        }

// The only remaining case is that the hex lies on the outside of a
// curving river. In this case, there are three edges pointing away from
// the river. The middle edge of these three edges must be obtained.
// Then, the center of the road is pushed toward the middle of this edge.
        else
        {
            HexDirections middle;
            if (previousHasRiver)
            {
//                middle = direction.Next();
                middle = direction.NextClockwise();
            }
            else if (nextHasRiver)
            {
//                middle = direction.Previous();
                middle = direction.PreviousClockwise();
            }
            else
            {
//                middle = direction;
                middle = direction;
            }

// If there is no road through any of the hexes on the outer side of the
// river bend, then the road center need not move and should instead be
// pruned.
            if (
//                !hex.HasRoadThroughEdge(middle) &&
                !roadEdges[middle] &&
//                !hex.HasRoadThroughEdge(middle.Previous()) &&
                !roadEdges[middle.PreviousClockwise()] &&
//                !hex.HasRoadThroughEdge(middle.Next())
                !roadEdges[middle.NextClockwise()]
                )
            {
                return(data);
            }

            Vector3 offset = HexagonPoint.GetSolidEdgeMiddle(
                middle,
                hexOuterRadius
                );

            roadCenter += offset * 0.25f;

            if (
                direction == middle &&
//                hex.HasRoadThroughEdge(direction.Opposite())
                roadEdges[direction.Opposite()]
                )
            {
                features.AddBridge(
                    roadCenter,
                    data.terrainCenter - offset * (
                        HexagonConstants.INNER_TO_OUTER_RATIO * 0.7f
                        ),
                    hexOuterRadius,
                    wrapSize
                    );
            }
        }

        Vector3 middleLeft =
            Vector3.Lerp(
                roadCenter,
                data.centerEdgeVertices.vertex1,
                interpolators.x
                );

        Vector3 middleRight =
            Vector3.Lerp(
                roadCenter,
                data.centerEdgeVertices.vertex5,
                interpolators.y
                );

        TriangulateRoad(
            roadCenter,
            middleLeft,
            middleRight,
            data.centerEdgeVertices,
            hasRoadThroughEdge,
            source.Index,
            hexOuterRadius,
            wrapSize,
            roads
            );

        if (previousHasRiver)
        {
            TriangulateRoadEdge(
                roadCenter,
                data.terrainCenter,
                middleLeft,
                source.Index,
                hexOuterRadius,
                wrapSize,
                roads
                );
        }

        if (nextHasRiver)
        {
            TriangulateRoadEdge(
                roadCenter,
                middleRight,
                data.terrainCenter,
                source.Index,
                hexOuterRadius,
                wrapSize,
                roads
                );
        }

        return(data);
    }