public void InitializeGraph() { gs = new GraphSolver(); plainWater.Add(FluidType.WATER, 1.0); seaWater.Add(FluidType.SEA_WATER, 1.0); Tank t1 = new Tank("T1", 1000.0, plainWater, 500.0, new string[] { "V1" }, false); gs.addComponent(t1); t1.currentTemperature = 20.0; Tank t2 = new Tank("T2", 1000.0, seaWater, 500.0, new string[] { "V2" }, false); gs.addComponent(t2); t2.currentTemperature = 10.0; FlowLine v1 = new FlowLine("V1", "S1"); gs.addComponent(v1); FlowLine v2 = new FlowLine("V2", "S1"); gs.addComponent(v2); Junction s1 = new Junction("S1", new string[] { "P1" }, new string[] { "V1", "V2" }, "", new double[] { 0.5, 0.5 }, new double[] { 1.0, 1.0 }); gs.addComponent(s1); FlowDriver p1 = new FlowDriver("P1", 300.0, 3.2, "S2"); gs.addComponent(p1); Junction s2 = new Junction("S2", new string[] { "V3", "V4" }, new string[] { "P1" }, "C2", new double[] { 0.5, 0.5 }, new double[] { 1.0, 1.0 }); gs.addComponent(s2); FlowLine v3 = new FlowLine("V3", "C2"); gs.addComponent(v3); FlowLine v4 = new FlowLine("V4", "C2"); gs.addComponent(v4); Junction c2 = new Junction("C2", new string[] { "T3" }, new string[] { "V3", "V4" }); gs.addComponent(c2); Tank t3 = new Tank("T3", 1000.0, plainWater, 500.0, new string[] { }, false); //We have no sinks, since we are the bottom of this food-chain. t3.currentTemperature = 30.0; gs.addComponent(t3); gs.connectComponents(); }
public void InitializeGraph() { gs = new GraphSolver(); plainAir.Add(FluidType.AIR, 1.0); Tank t1 = new Tank("T1", double.MaxValue, plainAir, double.MaxValue, new string[] { "V1" }, false); //Infinite tank! gs.addComponent(t1); FlowLine v1 = new FlowLine("V1", "P1"); gs.addComponent(v1); FlowDriver p1 = new FlowDriver("P1", 100.0, 4.0, "V2"); gs.addComponent(p1); FlowLine v2 = new FlowLine("V2", "T2"); gs.addComponent(v2); Tank t2 = new Tank("T2", 1000.0, plainAir, 1000.0, new string[] { "P2" }, true); //Sealed tanks should start full of air, so currentVolume = capacity. gs.addComponent(t2); PressureDifferentialFlowDriver p2 = new PressureDifferentialFlowDriver("P2", 100.0, 0.0, "V3", 1.0, 2.0); gs.addComponent(p2); FlowLine v3 = new FlowLine("V3", "T3"); v3.setFlowAllowedPercent(0.0); gs.addComponent(v3); Tank t3 = new Tank("T3", 1000.0, plainAir, 1000.0, new string[] { }, true); //Sealed tanks should start full of air, so currentVolume = capacity. gs.addComponent(t3); gs.connectComponents(); }
public static void verifyMixtureAndTemperature(GraphSolver gs, string name, Dictionary<FluidType, double> truthMap, double temp) { Dictionary<FluidType, double> componentMap = gs.getComponent(name).getCurrentFluidTypeMap(); double componentTemp = gs.getComponent(name).getInletTemperature(); Assert.AreEqual(temp, componentTemp, 0.00001); foreach(KeyValuePair<FluidType, double> iter in truthMap) { Assert.AreEqual(true, componentMap.ContainsKey(iter.Key)); Assert.AreEqual(iter.Value, componentMap[iter.Key], 0.00001); } }
public static void UglyTest() { gs = new GraphSolver(); plainWater.Add(FluidType.WATER, 1.0); seaWater.Add(FluidType.SEA_WATER, 1.0); //Tanks t1 and t2 are the base sources, and go to v1 and v2 directly (return comes back through v11 and v12) gs.addComponent(new Tank("T1", 1000.0, plainWater, 500.0, new string[] { "V1" }, false)); gs.addComponent(new Tank("T2", 1000.0, plainWater, 500.0, new string[] { "V2" }, false)); gs.addComponent(new FlowLine("V1", "C1")); //v1 and v2 both go into S1 gs.addComponent(new FlowLine("V2", "C1")); //Valves v1 and v2 combine into c1, and then split immediatelu to s1 gs.addComponent(new Junction("C1", new string[] { "S1" }, new string[] { "V1", "V2" }, "", new double[] { 0.5, 0.5 }, new double[] { 1.0, 1.0 })); //Splitter s1 splits the flow into v3 and v4, so that they can got to p1 and p2, which go further on to v5 and v6 gs.addComponent(new Junction("S1", new String[] { "V3", "V4" }, new string[] { "C1" }, "", new double[] { 0.5, 0.5 }, new double[] { 1.0, 1.0 })); gs.addComponent(new FlowLine("V3", "P1")); gs.addComponent(new FlowLine("V4", "P2")); gs.addComponent(new FlowDriver("P1", 100, 3.2, "V5")); gs.addComponent(new FlowDriver("P2", 100, 3.2, "V6")); gs.addComponent(new FlowLine("V5", "C2")); gs.addComponent(new FlowLine("V6", "C2")); //Valves v5 and v6 then get combined into c2, which immediately splits out with s2 gs.addComponent(new Junction("C2", new string[] { "S2" }, new string[] { "V5", "V6" })); //Valves v7, v8, and v9 all go in between s2 and c3 gs.addComponent(new Junction("S2", new String[] { "V7", "V8", "V9" }, new string[] { "C2" }, "C3", new double[] { .1, .4, .5 }, new double[] { .1, .6, 1.0 })); gs.addComponent(new FlowLine("V7", "C3")); gs.addComponent(new FlowLine("V8", "C3")); gs.addComponent(new FlowLine("V9", "C3")); gs.addComponent(new Junction("C3", new string[] { "V10" }, new string[] { "V7", "V8", "V9" })); //Valve v10 goes between c3 and s3 gs.addComponent(new FlowLine("V10", "S3")); gs.addComponent(new Junction("S3", new String[] { "V11", "V12" }, new string[] { "V10" }, "", new double[] { 0.5, 0.5 }, new double[] { 1.0, 1.0 })); //Valves v11 and v12 go from s3 back to the tanks t1 and t2 gs.addComponent(new FlowLine("V11", "T1")); gs.addComponent(new FlowLine("V12", "T2")); //v2.setFlowAllowedPercent(0.25); //v4.setFlowAllowedPercent(0.2); //t1.setCurrentVolume(0.0); //v5.setMaxFlow(100.0); //v0.setMaxFlow(85.0); //v5.setFlowAllowedPercent(0.5); gs.connectComponents(); gs.solveMimic(); gs.printSolution(); }
public void InitializeGraph() { gs = new GraphSolver(); plainWater.Add(FluidType.WATER, 1.0); Tank t1 = new Tank("T1", 1000.0, plainWater, 500.0, new string[] { "V1" }, false); gs.addComponent(t1); FlowLine v1 = new FlowLine("V1", "P1"); gs.addComponent(v1); FlowDriver p1 = new FlowDriver("P1", 100.0, 3.2, "V2"); gs.addComponent(p1); FlowLine v2 = new FlowLine("V2", "T2"); gs.addComponent(v2); Tank t2 = new Tank("T2", 1000.0, plainWater, 500.0, new string[] { }, false); //We have no sinks, since we are the bottom of this food-chain. gs.addComponent(t2); gs.connectComponents(); }
public void InitializeGraph() { gs = new GraphSolver(); plainWater.Add(FluidType.WATER, 1.0); Tank t1 = new Tank("T1", 1000.0, plainWater, 500.0, new string[] { "V1" }, false); gs.addComponent(t1); FlowLine v1 = new FlowLine("V1", "S1"); gs.addComponent(v1); Tank t2 = new Tank("T2", 1000.0, plainWater, 500.0, new string[] { "V2" }, false); //We have no sinks, since we are the bottom of this food-chain. gs.addComponent(t2); FlowLine v2 = new FlowLine("V2", "S1"); gs.addComponent(v2); Junction s1 = new Junction("S1", new string[] { "P1" }, new string[] { "V1", "V2" }, "", new double[] { 0.5, 0.5 }, new double[] { 0.6, 1.0 }); gs.addComponent(s1); FlowDriver p1 = new FlowDriver("P1", 200.0, 3.2, "V3"); gs.addComponent(p1); FlowLine v3 = new FlowLine("V3", "T3"); gs.addComponent(v3); Tank t3 = new Tank("T3", 1000.0, plainWater, 500.0, new string[] { }, false); //We have no sinks, since we are the bottom of this food-chain. gs.addComponent(t3); gs.connectComponents(); }
public void InitializeGraph() { gs = new GraphSolver(); plainWater.Add(FluidType.WATER, 1.0); Tank t1 = new Tank("T1", 1000.0, plainWater, 500.0, new string[] { "V0" }, false); gs.addComponent(t1); FlowLine v0 = new FlowLine("V0", "C1"); gs.addComponent(v0); Junction c1 = new Junction("C1", new string[] { "V1", "V2" }, new string[] { "V0" }); gs.addComponent(c1); FlowLine v1 = new FlowLine("V1", "P1"); gs.addComponent(v1); FlowLine v2 = new FlowLine("V2", "P2"); gs.addComponent(v2); FlowDriver p1 = new FlowDriver("P1", 100.0, 3.2, "V3"); gs.addComponent(p1); FlowDriver p2 = new FlowDriver("P2", 100.0, 3.2, "V4"); gs.addComponent(p2); FlowLine v3 = new FlowLine("V3", "C2"); gs.addComponent(v3); FlowLine v4 = new FlowLine("V4", "C2"); gs.addComponent(v4); Junction c2 = new Junction("C2", new string[] { "V5" }, new string[] { "V3", "V4" }); gs.addComponent(c2); FlowLine v5 = new FlowLine("V5", "T2"); gs.addComponent(v5); Tank t2 = new Tank("T2", 1000.0, plainWater, 500.0, new string[] { }, false); //We have no sinks, since we are the bottom of this food-chain. gs.addComponent(t2); gs.connectComponents(); }
public static void verifyFlow(GraphSolver gs, String name, double flow) { double componentFlow = gs.getComponent(name).getFlow(); Assert.AreEqual(flow, componentFlow, 0.00001); }