Ejemplo n.º 1
0
    public void NullString()
    {
        InitCompiler("null", 0);

        Assert.IsTrue(parser.Parse(compiler));

        Assert.AreSame(root, compiler.Parent);
        Assert.AreEqual(1, root.Children.Count);
        Assert.AreEqual(new NullToken(0), root.Children[0]);
        Assert.AreEqual(4, compiler.Pos);
    }
Ejemplo n.º 2
0
        public static void main(string[] args)
        {
            int i;

            var net = new EpanetNetwork();

            //Tank
            Tank tank = new Tank("0")
            {
                Elevation = 210
            };

            net.Nodes.Add(tank);

            //Nodes
            Node[] node = new Node[7];

            for (i = 1; i < 7; i++)
            {
                node[i] = new Node(i.ToString());
            }


            node[1].Elevation = 150;
            node[1].Demands.Add(new Demand(100, null));
            node[2].Elevation = 160;
            node[2].Demands.Add(new Demand(100, null));
            node[3].Elevation = 155;
            node[3].Demands.Add(new Demand(120, null));
            node[4].Elevation = 150;
            node[4].Demands.Add(new Demand(270, null));
            node[5].Elevation = 165;
            node[5].Demands.Add(new Demand(330, null));
            node[6].Elevation = 160;
            node[6].Demands.Add(new Demand(200, null));

            //Links
            Link[] pipe = new Link[8];
            for (i = 0; i < 8; i++)
            {
                pipe[i] = new Link(i.ToString())
                {
                    Lenght = 1000
                };
            }
            pipe[0].FirstNode  = tank;
            pipe[0].SecondNode = node[1];
            pipe[1].FirstNode  = node[1];
            pipe[1].SecondNode = node[2];
            pipe[2].FirstNode  = node[1];
            pipe[2].SecondNode = node[3];
            pipe[3].FirstNode  = node[3];
            pipe[3].SecondNode = node[4];
            pipe[4].FirstNode  = node[3];
            pipe[4].SecondNode = node[5];
            pipe[5].FirstNode  = node[5];
            pipe[5].SecondNode = node[6];
            pipe[6].FirstNode  = node[2];
            pipe[6].SecondNode = node[4];
            pipe[7].FirstNode  = node[4];
            pipe[7].SecondNode = node[6];

            for (i = 1; i < 7; i++)
            {
                net.Nodes.Add(node[i]);
            }
            for (i = 0; i < 8; i++)
            {
                net.Links.Add(pipe[i]);
            }

            //Prepare Network
            TraceSource log = new TraceSource(typeof(SampleOOPNetwork2).FullName, SourceLevels.All);
            NullParser  nP  = (NullParser)InputParser.Create(FileType.NULL_FILE);

            Debug.Assert(nP != null);
            nP.Parse(new EpanetNetwork(), null);

            //// Simulate hydraulics
            string       hydFile = Path.GetTempFileName(); // ("hydSim", "bin");
            HydraulicSim hydSim  = new HydraulicSim(net, log);

            hydSim.Simulate(hydFile);

            // Read hydraulic results

            HydraulicReader hydReader = new HydraulicReader(hydFile);

            for (long time = net.RStart; time <= net.Duration; time += net.RStep)
            {
                AwareStep step = hydReader.GetStep((int)time);
                Console.WriteLine("Time : " + step.Time.GetClockTime() + ", nodes heads : ");

                i = 0;
                foreach (Node inode in net.Nodes)
                {
                    Console.Write("{0:F2}\t", step.GetNodeHead(i++, inode, null));
                }

                Console.WriteLine();
            }

            hydReader.Close();
        }
Ejemplo n.º 3
0
        public static void main(string[] args)
        {
            var net = new EpanetNetwork();

            //Tank
            Tank tank = new Tank("0")
            {
                Elevation = 210
            };

            net.Nodes.Add(tank);

            //Nodes
            Node[] node = new Node[7];
            for (int i = 1; i < 7; i++)
            {
                node[i] = new Node(i.ToString());
            }

            node[1].Elevation = 150;
            node[1].Demands.Add(new Demand(100, null));
            node[2].Elevation = 160;
            node[2].Demands.Add(new Demand(100, null));
            node[3].Elevation = 155;
            node[3].Demands.Add(new Demand(120, null));
            node[4].Elevation = 150;
            node[4].Demands.Add(new Demand(270, null));
            node[5].Elevation = 165;
            node[5].Demands.Add(new Demand(330, null));
            node[6].Elevation = 160;
            node[6].Demands.Add(new Demand(200, null));

            //Links
            Link[] pipe = new Link[8];
            for (int i = 0; i < 8; i++)
            {
                pipe[i] = new Link(i.ToString())
                {
                    Lenght = 1000
                };
            }

            pipe[0].FirstNode  = tank;
            pipe[0].SecondNode = node[1];
            pipe[1].FirstNode  = node[1];
            pipe[1].SecondNode = node[2];
            pipe[2].FirstNode  = node[1];
            pipe[2].SecondNode = node[3];
            pipe[3].FirstNode  = node[3];
            pipe[3].SecondNode = node[4];
            pipe[4].FirstNode  = node[3];
            pipe[4].SecondNode = node[5];
            pipe[5].FirstNode  = node[5];
            pipe[5].SecondNode = node[6];
            pipe[6].FirstNode  = node[2];
            pipe[6].SecondNode = node[4];
            pipe[7].FirstNode  = node[4];
            pipe[7].SecondNode = node[6];

            for (int i = 1; i < 7; i++)
            {
                net.Nodes.Add(node[i]);
            }

            for (int i = 0; i < 8; i++)
            {
                net.Links.Add(pipe[i]);
            }


            //Prepare Network
            TraceSource log = new TraceSource(typeof(SampleOOPNetwork2).FullName, SourceLevels.All);
            NullParser  nP  = (NullParser)InputParser.Create(FileType.NULL_FILE);

            Debug.Assert(nP != null);
            nP.Parse(new EpanetNetwork(), null);

            //// Simulate hydraulics and get streaming/dynamic results
            new DynamicSimulation(net, log).Simulate();
        }