Exemplo n.º 1
0
        public Vector2 GetNodeDrawPos(Computer node, int nodeIndex)
        {
            int num1 = 3;

            Utils.Clamp(node.location, 0.0f, 1f);
            float num2 = (float)this.bounds.Width - (float)NetworkMap.NODE_SIZE * 1f;
            float num3 = (float)this.bounds.Height - (float)NetworkMap.NODE_SIZE * 1f;

            return(NetmapSortingAlgorithms.GetNodePosition(this.SortingAlgorithm, num2 - (float)(2 * num1), num3 - (float)(2 * num1), node, nodeIndex, this.nodes.Count, this.visibleNodes.Count, this.os) + new Vector2((float)NetworkMap.NODE_SIZE / 4f));
        }
Exemplo n.º 2
0
        internal static Vector2 GetNodePosition(NetmapSortingAlgorithm algorithm, float mapWidth, float mapHeight, Computer node, int nodeIndex, int totalNodes, int totalRevealedNodes, OS os)
        {
            switch (algorithm)
            {
            case NetmapSortingAlgorithm.Grid:
                int num1 = 5;
                int num2 = (int)((double)totalNodes / (double)num1) + 1;
                if (totalRevealedNodes > 60)
                {
                    num1 = 7;
                    num2 = (int)((double)totalNodes / (double)num1) + 1;
                }
                if (totalRevealedNodes > 150)
                {
                    num1 = 9;
                    num2 = (int)((double)totalNodes / (double)num1) + 1;
                }
                int num3 = (int)((double)nodeIndex / (double)num1 + 0.0);
                int num4 = num1 * num2;
                if (totalNodes > num4 - 10)
                {
                    num3 = (int)((double)nodeIndex / (double)num1 + 0.5);
                    ++num2;
                }
                int   num5  = nodeIndex % num1;
                float xout1 = (float)num3 / ((float)num2 - 2f);
                float yout1 = (float)num5 / ((float)num1 - 1f);
                NetmapSortingAlgorithms.ClipToMargins(xout1, yout1, totalRevealedNodes, out xout1, out yout1);
                float x1 = xout1 * mapWidth;
                yout1 *= mapHeight;
                return(new Vector2(x1, yout1));

            case NetmapSortingAlgorithm.Chaos:
                return(new Vector2(Utils.randm(1f) * mapWidth, Utils.randm(1f) * mapHeight));

            case NetmapSortingAlgorithm.LockGrid:
                int num6  = 5;
                int count = os.netMap.visibleNodes.Count;
                int num7  = (int)((double)(count + (int)((double)(totalNodes - count) / 8.0)) / (double)num6) + 1;
                if (count > 50)
                {
                    num6 = 6;
                    num7 = (int)((double)count / (double)num6) + 1;
                }
                if (count > 80)
                {
                    num6 = 7;
                    num7 = (int)((double)count / (double)num6) + 1;
                }
                if (count > 110)
                {
                    num6 = 8;
                    num7 = (int)((double)count / (double)num6) + 1;
                }
                if (count > 150)
                {
                    num6 = 9;
                    num7 = (int)((double)count / (double)num6) + 1;
                }
                int num8 = Math.Max(num7 + 1, 3);
                int num9 = os.netMap.visibleNodes.IndexOf(os.netMap.nodes.IndexOf(node));
                if (num9 == -1)
                {
                    num9 = 1;
                }
                int num10 = num9 / num6;
                if (count > 150)
                {
                    num10 = (int)((double)num9 / (double)num6 + 0.5);
                    ++num8;
                }
                int   num11 = num9 % num6;
                float xout2 = (float)num10 / ((float)num8 - 2f);
                float yout2 = (float)num11 / ((float)num6 - 1f);
                NetmapSortingAlgorithms.ClipToMargins(xout2, yout2, totalRevealedNodes, out xout2, out yout2);
                float x2 = xout2 * mapWidth;
                yout2 *= mapHeight;
                return(new Vector2(x2, yout2));

            default:
                Vector2 vector2 = Utils.Clamp(node.location, 0.0f, 1f);
                return(new Vector2(vector2.X * mapWidth, vector2.Y * mapHeight));
            }
        }