public CreateBridgeParameters(ValidBridgePoint startPoint, ValidBridgePoint endPoint)
 {
     BridgePoints = new List <ValidBridgePoint>()
     {
         startPoint, endPoint
     };
 }
Exemplo n.º 2
0
        ////////////////////////////////////////////////////////////////

        public void DEBUG_DrawGizmos()
        {
            if (m_Bridge.IsValid())
            {
                Gizmos.color = Color.white;
                for (int i = 0; i < m_Bridge.Points.Length; i++)
                {
                    bool isFirst = i == 0;
                    bool isLast  = i == m_Bridge.Points.Length - 1;

                    if (isFirst)
                    {
                        Gizmos.color = new Color(0.8f, 0.8f, 1.0f);
                    }
                    else if (isLast)
                    {
                        Gizmos.color = new Color(0.8f, 1.0f, 0.8f);
                    }
                    else
                    {
                        Gizmos.color = new Color(0.8f, 0.8f, 0.8f);
                    }

                    ValidBridgePoint bridgePoint = m_Bridge.Points[i];

                    Gizmos.DrawWireSphere(bridgePoint.PositionWS, 0.5f);
                    if (!isLast)
                    {
                        Gizmos.DrawLine(m_Bridge.Points[i].PositionWS, m_Bridge.Points[i + 1].PositionWS);
                    }

                    ////////////////////////////////////////////////////////////////

                    Gizmos.color = Color.black;
                    Gizmos.DrawLine(bridgePoint.PositionWS, bridgePoint.PositionWS + bridgePoint.WallNormalWS * 0.65f);
                    Gizmos.color = Color.magenta;
                    Gizmos.DrawLine(bridgePoint.PositionWS, bridgePoint.PositionWS + bridgePoint.RightTangentWS * 0.65f);
                    Gizmos.color = Color.cyan;
                    Gizmos.DrawLine(bridgePoint.PositionWS, bridgePoint.PositionWS + bridgePoint.UpTangentWS * 0.65f);
                }
            }

            ////////////////////////////////////////////////////////////////

            if (m_FirstBridgePoint.IsValid())
            {
                Gizmos.color = new Color(0f, 0f, 1f, 0.3f);
                Gizmos.DrawWireSphere(m_FirstBridgePoint.PositionWS, 1.0f);
            }

            if (m_SecondBridgePoint.IsValid())
            {
                Gizmos.color = new Color(0f, 1f, 0f, 0.3f);
                Gizmos.DrawWireSphere(m_SecondBridgePoint.PositionWS, 1.0f);
            }

            ////////////////////////////////////////////////////////////////
        }
Exemplo n.º 3
0
        ////////////////////////////////////////////////////////////////

        static Vector3 GetFacingDirection(Bridge bridge, int index)
        {
            Debug.Assert(bridge.IsValid());

            ////////////////////////////////////////////////////////////////

            ValidBridgePoint bridgePoint = bridge.Points[index];

            Vector3 toNextVector = Vector3.zero;

            if (index != bridge.Points.Length - 1)
            {
                ValidBridgePoint previousBridgePoint = bridge.Points[index + 1];
                toNextVector = -bridgePoint.PositionWS + previousBridgePoint.PositionWS;
            }
            else
            {
                ValidBridgePoint nextBridgePoint = bridge.Points[index - 1];
                toNextVector = -nextBridgePoint.PositionWS + bridgePoint.PositionWS;
            }

            return(toNextVector);
        }
Exemplo n.º 4
0
        ////////////////////////////////////////////////////////////////
        /// <summary>
        /// Finds the UVs for all points along a bridge
        /// </summary>
        /// <param name="inOutBridgePoints"></param>
        private static void FindUVsForBridge(ref CreateBridgeParameters inOutBridgePoints, out float bridgeLength)
        {
            Assert.IsTrue(inOutBridgePoints.BridgePoints.Count >= 2);

            ////////////////////////////////////////////////////////////////

            bridgeLength = 0.0f;

            ValidBridgePoint startPoint = inOutBridgePoints.BridgePoints[0];

            startPoint.UV = new Vector2(bridgeLength, 0.0f);

            for (int i = 0; i < inOutBridgePoints.BridgePoints.Count - 1; i++)
            {
                Vector3 pointA = inOutBridgePoints.BridgePoints[i].PositionWS;
                Vector3 pointB = inOutBridgePoints.BridgePoints[i + 1].PositionWS;

                bridgeLength += Vector3.Distance(pointA, pointB);

                ValidBridgePoint bridgePoint = inOutBridgePoints.BridgePoints[i + 1];
                bridgePoint.UV = new Vector2(bridgeLength, 0.0f);
                inOutBridgePoints.BridgePoints[i + 1] = bridgePoint;
            }
        }
Exemplo n.º 5
0
        /*//////////////////////////////////////////////////////////////
        *  //// Private Helpers                                     ////
        *  //////////////////////////////////////////////////////////////*/

        /// <summary>
        /// Finds all bridge points a bridge would have.
        /// </summary>
        /// <param name="validBridgeInput"></param>
        /// <returns></returns>
        private static void FindMirrorPointsForBridge(ref CreateBridgeParameters inOutBridgePoints)
        {
            Assert.IsTrue(inOutBridgePoints.BridgePoints.Count >= 2);

#if DEBUG
            int debugCount = 0;
#endif
            ////////////////////////////////////////////////////////////////
            // For both start & end point of the bridge parameters:
            // If the point is a mirror, try to find the point before. Continue until no mirror is hit anymore.
            ////////////////////////////////////////////////////////////////

            int indexMirrorPoint = 0;
            int indexOther       = 1;

            // Start Point
            while (inOutBridgePoints.BridgePoints[indexMirrorPoint].IsMirror)
            {
                Vector3 backToFront     = inOutBridgePoints.BridgePoints[indexOther].PositionWS - inOutBridgePoints.BridgePoints[indexMirrorPoint].PositionWS;
                Vector3 mirroredVector  = Vector3.Reflect(backToFront, inOutBridgePoints.BridgePoints[indexMirrorPoint].WallNormalWS);
                Vector3 mirroredVectorN = mirroredVector.normalized;
                Vector3 startPosition   = inOutBridgePoints.BridgePoints[indexMirrorPoint].PositionWS + mirroredVectorN * BridgeOptions.RAYCAST_PADDING;
                Ray     ray             = new Ray(startPosition, mirroredVector * BridgeOptions.MAX_BRIDGE_LENGTH);

                RaycastHit hit;
                if (Physics.Raycast(ray, out hit))
                {
                    RawBridgePoint newPoint;
                    if (ValidateBridgePoint(hit, out newPoint) == BridgePointValidationResult.Success)
                    {
                        Vector3          wallExtendRight = Vector3.Cross(hit.normal, Vector3.up);
                        ValidBridgePoint newValidPoint   = new ValidBridgePoint(newPoint.PositionWS, newPoint.WallNormalWS, newPoint.IsMirror, wallExtendRight, Vector3.up, Vector3.zero);

                        inOutBridgePoints.BridgePoints.Insert(indexMirrorPoint, newValidPoint);
                    }

#if DEBUG
                    Assert.IsTrue(debugCount < 20);
#endif
                    continue;
                }

                break;
            }

            // End Point
            indexMirrorPoint = inOutBridgePoints.BridgePoints.Count - 1;
            indexOther       = inOutBridgePoints.BridgePoints.Count - 2;

            // End Point
            while (inOutBridgePoints.BridgePoints[indexMirrorPoint].IsMirror)
            {
                Vector3 backToFront     = inOutBridgePoints.BridgePoints[indexMirrorPoint].PositionWS - inOutBridgePoints.BridgePoints[indexOther].PositionWS;
                Vector3 mirroredVector  = Vector3.Reflect(backToFront, inOutBridgePoints.BridgePoints[indexMirrorPoint].WallNormalWS);
                Vector3 mirroredVectorN = mirroredVector.normalized;
                Vector3 startPosition   = inOutBridgePoints.BridgePoints[indexMirrorPoint].PositionWS + mirroredVectorN * BridgeOptions.RAYCAST_PADDING;
                Ray     ray             = new Ray(startPosition, mirroredVector * BridgeOptions.MAX_BRIDGE_LENGTH);

                RaycastHit hit;
                if (Physics.Raycast(ray, out hit))
                {
                    RawBridgePoint newPoint;
                    if (ValidateBridgePoint(hit, out newPoint) == BridgePointValidationResult.Success)
                    {
                        Vector3          wallExtendRight = Vector3.Cross(hit.normal, Vector3.up);
                        ValidBridgePoint newValidPoint   = new ValidBridgePoint(newPoint.PositionWS, newPoint.WallNormalWS, newPoint.IsMirror, wallExtendRight, Vector3.up, Vector3.zero);

                        inOutBridgePoints.BridgePoints.Add(newValidPoint);
                    }

#if DEBUG
                    Assert.IsTrue(debugCount < 20);
#endif
                    indexMirrorPoint = inOutBridgePoints.BridgePoints.Count - 1;
                    indexOther       = inOutBridgePoints.BridgePoints.Count - 2;

                    continue;
                }

                break;
            }
        }
Exemplo n.º 6
0
        ////////////////////////////////////////////////////////////////

        static void AppendBridgeMeshVertices(ref List <BridgeMeshVertex> inOutBridgeMeshVertices, ValidBridgePoint bridgePoint, bool isEvenPoint)
        {
            BridgeMeshVertex leftVertex  = new BridgeMeshVertex();
            BridgeMeshVertex rightVertex = new BridgeMeshVertex();

            ////////////////////////////////////////////////////////////////
            // General

            // Depending on if we are an even or uneven point, we need to invert our "right" to make sure it is also the bridges "right"
            float facingFactor = isEvenPoint ? 1.0f : -1.0f;

            ////////////////////////////////////////////////////////////////
            // Inner Position
            leftVertex.InnerPositionWS  = bridgePoint.PositionWS;
            rightVertex.InnerPositionWS = bridgePoint.PositionWS;

            ////////////////////////////////////////////////////////////////
            // Position

            float halfBridgeWidth = BridgeOptions.WIDTH_WS / 2.0f;

            leftVertex.PositionWS  = bridgePoint.PositionWS + facingFactor * bridgePoint.RightTangentWS * halfBridgeWidth;
            rightVertex.PositionWS = bridgePoint.PositionWS - facingFactor * bridgePoint.RightTangentWS * halfBridgeWidth;

            ////////////////////////////////////////////////////////////////
            // Normal

            leftVertex.NormalWS  = Vector3.up;              // TODO: Calculate this from the positions themselves to make it more accurate.
            rightVertex.NormalWS = Vector3.up;

            ////////////////////////////////////////////////////////////////
            // UV
            // As the left and the right vertex might be differently far away from the previous points,
            // we need to calculate the UVs per vertex and cannot use the UVs of the points.

            float leftVertexV  = bridgePoint.UV.x;
            float rightVertexV = bridgePoint.UV.x;

            if (inOutBridgeMeshVertices.Count >= 2)
            {
                BridgeMeshVertex prevVertexLeft  = inOutBridgeMeshVertices[inOutBridgeMeshVertices.Count - 2];
                BridgeMeshVertex prevVertexRight = inOutBridgeMeshVertices[inOutBridgeMeshVertices.Count - 1];

                leftVertexV  = prevVertexLeft.UV.y + Vector3.Distance(prevVertexLeft.PositionWS, leftVertex.PositionWS);
                rightVertexV = prevVertexRight.UV.y + Vector3.Distance(prevVertexRight.PositionWS, rightVertex.PositionWS);
            }

            leftVertex.UV  = new Vector2(0.0f, leftVertexV);
            rightVertex.UV = new Vector2(1.0f, rightVertexV);

            ////////////////////////////////////////////////////////////////

            inOutBridgeMeshVertices.Add(leftVertex);
            inOutBridgeMeshVertices.Add(rightVertex);
        }
Exemplo n.º 7
0
        public static BridgeMesh CreateBridgeMesh(Bridge bridge)
        {
            Debug.Assert(bridge.IsValid());

            // For each bridgePoint [e.g, 0 or 1], we want to add the two bridge vertices [L, R]
            //
            // L0------------------L1 -
            // |                   |  |
            // |                   |  < BridgeWidth / 2
            // |                   |  |
            // 0-------------------1  -
            // |                   |
            // |                   |
            // |                   |
            // R0------------------R1

            ////////////////////////////////////////////////////////////////

            int bridgePointCount = bridge.Points.Length;

            List <BridgeMeshVertex> vertices = new List <BridgeMeshVertex>();

            for (int i = 0; i < bridgePointCount; i++)
            {
                ValidBridgePoint bridgePoint = bridge.Points[i];

                ////////////////////////////////////////////////////////////////

                bool isEvenPoint = (i % 2 == 0);
                AppendBridgeMeshVertices(ref vertices, bridgePoint, isEvenPoint);
            }

            const int VERTS_PER_BRIDGEPOINT = 2;

            int        triangleCount = VERTS_PER_BRIDGEPOINT * bridgePointCount;
            List <int> indicies      = new List <int>();

            for (int segementID = 0; segementID < bridgePointCount - 1; segementID++)
            {
                int nextSegmentID = segementID + 1;

                int vertexIDThisSegmentLeft  = VERTS_PER_BRIDGEPOINT * segementID + 0;
                int vertexIDThisSegmentRight = VERTS_PER_BRIDGEPOINT * segementID + 1;
                int vertexIDNextSegmentLeft  = VERTS_PER_BRIDGEPOINT * nextSegmentID + 0;
                int vertexIDNextSegmentRight = VERTS_PER_BRIDGEPOINT * nextSegmentID + 1;

                // Triangle 1: R0, L0, L1
                indicies.Add(vertexIDThisSegmentRight);
                indicies.Add(vertexIDThisSegmentLeft);
                indicies.Add(vertexIDNextSegmentLeft);

                // Triangle 2: R0, L1, R1
                indicies.Add(vertexIDThisSegmentRight);
                indicies.Add(vertexIDNextSegmentLeft);
                indicies.Add(vertexIDNextSegmentRight);
            }

            BridgeMesh bridgeMesh = new BridgeMesh(vertices, indicies);

            return(bridgeMesh);
        }