Exemplo n.º 1
0
 public OptimizationCase(OptimizationRules boundaries)
 {
     foreach (string parameter in Enum.GetNames(typeof(Symbols)))
     {
         Parameters.Add(0.0);
     }
     Boundaries = boundaries;
 }
Exemplo n.º 2
0
        public OptimizationCase(PhysicalBridge bridge)
        {
            foreach (string parameter in Enum.GetNames(typeof(Symbols)))
            {
                Parameters.Add(Converters.ToMeters(bridge.Superstructure.ParametersMap.get_Item(parameter).AsDouble()));
            }
            Boundaries = new OptimizationRules();

            foreach (int i in Enum.GetValues(typeof(Symbols)))
            {
                Boundaries.Min[i] = Parameters[i];
                Boundaries.Max[i] = Parameters[i];
            }
        }
Exemplo n.º 3
0
        public OptimizationCase(string encoded)
        {
            foreach (Symbols i in Enum.GetValues(typeof(Symbols)))
            {
                Parameters.Add(0.0);
            }
            Boundaries = new OptimizationRules();

            encoded = encoded.Remove(0, encoded.IndexOf("\t") + 1);
            while (encoded.Length > 0)
            {
                string trimmed;
                if (encoded.Contains("\t"))
                {
                    trimmed = encoded.Substring(0, encoded.IndexOf("\t"));
                    encoded = encoded.Substring(encoded.IndexOf("\t") + 1);
                }
                else
                {
                    trimmed = encoded;
                    encoded = "";
                }

                string paramName  = trimmed.Substring(0, trimmed.IndexOf(":"));
                string paramValue = trimmed.Substring(trimmed.IndexOf(":") + 2);
                paramValue = paramValue.Substring(0, paramValue.IndexOf(" "));

                if (Enum.GetNames(typeof(Symbols)).ToList().Contains(paramName) && double.TryParse(paramValue, out double val))
                {
                    int index = Enum.GetNames(typeof(Symbols)).ToList().IndexOf(paramName);
                    Parameters[index] = val;

                    string minBound, maxBound;
                    minBound = trimmed.Substring(trimmed.IndexOf("(") + 1).TrimEnd(')'); maxBound = minBound;
                    minBound = minBound.Substring(0, minBound.IndexOf(" "));
                    maxBound = maxBound.Substring(maxBound.LastIndexOf(" ") + 1);

                    if (double.TryParse(minBound, out double minVal) && double.TryParse(maxBound, out double maxVal))
                    {
                        Boundaries.Min[index] = minVal;
                        Boundaries.Max[index] = maxVal;
                    }
                }
            }
        }
Exemplo n.º 4
0
        public OptimizationCase(PhysicalBridge seed, OptimizationRules boundaries = null, Random rnd = null)
        {
            double minEdge = Converters.ToMeters(seed.Superstructure.ParametersMap.get_Item("O1").AsDouble());
            double maxEdge = Converters.ToMeters(seed.Superstructure.ParametersMap.get_Item("O5").AsDouble());

            foreach (Symbols i in Enum.GetValues(typeof(Symbols)))
            {
                Parameters.Add(0.0);
            }

            if (boundaries == null)
            {
                boundaries = new OptimizationRules(minEdge, maxEdge);
            }
            Boundaries = boundaries;

            //Case generation:
            if (rnd == null)
            {
                rnd = new Random();
            }
            Parameters[(int)Symbols.BL] = Boundaries.Min[(int)Symbols.BL] + rnd.NextDouble() * (Boundaries.Max[(int)Symbols.BL] - Boundaries.Min[(int)Symbols.BL]); Parameters[(int)Symbols.BP] = Parameters[(int)Symbols.BL];
            Parameters[(int)Symbols.HL] = Boundaries.Min[(int)Symbols.HL] + rnd.NextDouble() * (Boundaries.Max[(int)Symbols.HL] - Boundaries.Min[(int)Symbols.HL]); Parameters[(int)Symbols.HP] = Parameters[(int)Symbols.HL];

            Parameters[(int)Symbols.BL1] = Boundaries.Min[(int)Symbols.BL1] + rnd.NextDouble() * (Boundaries.Max[(int)Symbols.BL1] - Boundaries.Min[(int)Symbols.BL1]);
            Parameters[(int)Symbols.BL2] = Parameters[(int)Symbols.BL1];
            Parameters[(int)Symbols.BP1] = Parameters[(int)Symbols.BL1];
            Parameters[(int)Symbols.BP2] = Parameters[(int)Symbols.BL1];

            double totalGirderWidth = Parameters[(int)Symbols.BL] + Parameters[(int)Symbols.BL1] + Parameters[(int)Symbols.BL2];
            double minOffset, maxOffset;

            if (rnd.NextDouble() < 0.5)
            {
                minOffset = Boundaries.Min[(int)Symbols.OL] + Boundaries.MinCantileverOverhang + 0.5 * totalGirderWidth;
                maxOffset = Boundaries.Max[(int)Symbols.OL] - Boundaries.MinCantileverOverhang - totalGirderWidth - Boundaries.MinSpanLength - 0.5 * totalGirderWidth;
                Parameters[(int)Symbols.OL] = minOffset + rnd.NextDouble() * (maxOffset - minOffset);

                minOffset = Parameters[(int)Symbols.OL] + Boundaries.MinSpanLength + totalGirderWidth;
                maxOffset = Boundaries.Max[(int)Symbols.OP] - Boundaries.MinCantileverOverhang - 0.5 * totalGirderWidth;
                Parameters[(int)Symbols.OP] = minOffset + rnd.NextDouble() * (maxOffset - minOffset);
            }
            else
            {
                minOffset = Boundaries.Min[(int)Symbols.OP] + Boundaries.MinCantileverOverhang + totalGirderWidth + Boundaries.MinSpanLength + 0.5 * totalGirderWidth;
                maxOffset = Boundaries.Max[(int)Symbols.OP] - Boundaries.MinCantileverOverhang - 0.5 * totalGirderWidth;
                Parameters[(int)Symbols.OP] = minOffset + rnd.NextDouble() * (maxOffset - minOffset);

                minOffset = Boundaries.Min[(int)Symbols.OL] + Boundaries.MinCantileverOverhang + totalGirderWidth + 0.5 * totalGirderWidth;
                maxOffset = Parameters[(int)Symbols.OP] - Boundaries.MinSpanLength - totalGirderWidth;
                Parameters[(int)Symbols.OL] = minOffset + rnd.NextDouble() * (maxOffset - minOffset);
            }

            if (rnd.NextDouble() < 0.5)
            {
                Parameters[(int)Symbols.WL] = 0.000; Parameters[(int)Symbols.WP] = 0.000;
            }
            else
            {
                double cantileverOverhang = Math.Min(Parameters[(int)Symbols.OL] - minEdge, maxEdge - Parameters[(int)Symbols.OP]) - 0.5 * totalGirderWidth;
                if (cantileverOverhang > Boundaries.Max[(int)Symbols.WL])
                {
                    cantileverOverhang = Boundaries.Max[(int)Symbols.WL];
                }
                Parameters[(int)Symbols.WL] = Boundaries.Min[(int)Symbols.WL] + rnd.NextDouble() * (cantileverOverhang - Boundaries.Min[(int)Symbols.WL]);
                Parameters[(int)Symbols.WP] = Parameters[(int)Symbols.WL];
            }

            double spanLength = Parameters[(int)Symbols.OP] - Parameters[(int)Symbols.OL] - totalGirderWidth;

            Parameters[(int)Symbols.PL] = Boundaries.Min[(int)Symbols.PL] + rnd.NextDouble() * (Math.Min(0.5 * spanLength, Boundaries.Max[(int)Symbols.PL]) - Boundaries.Min[(int)Symbols.PL]);
            Parameters[(int)Symbols.PP] = Parameters[(int)Symbols.PL];

            Parameters[(int)Symbols.G1] = Boundaries.Min[(int)Symbols.G1] + rnd.NextDouble() * (Boundaries.Max[(int)Symbols.G1] - Boundaries.Min[(int)Symbols.G1]); Parameters[(int)Symbols.G11] = Parameters[(int)Symbols.G1];
            Parameters[(int)Symbols.G3] = Boundaries.Min[(int)Symbols.G3] + rnd.NextDouble() * (Boundaries.Max[(int)Symbols.G3] - Boundaries.Min[(int)Symbols.G3]); Parameters[(int)Symbols.G9] = Parameters[(int)Symbols.G3];
            if (Parameters[(int)Symbols.G3] < Parameters[(int)Symbols.G1])
            {
                Parameters[(int)Symbols.G3] = Parameters[(int)Symbols.G1];
            }
            if (Parameters[(int)Symbols.WL] == 0.000)
            {
                Parameters[(int)Symbols.G2] = Parameters[(int)Symbols.G3];
            }
            else
            {
                Parameters[(int)Symbols.G2] = Boundaries.Min[(int)Symbols.G2] + rnd.NextDouble() * (Boundaries.Max[(int)Symbols.G2] - Boundaries.Min[(int)Symbols.G2]);
                if (Parameters[(int)Symbols.G2] < Parameters[(int)Symbols.G1])
                {
                    Parameters[(int)Symbols.G2] = Parameters[(int)Symbols.G1];
                }
                if (Parameters[(int)Symbols.G2] > Parameters[(int)Symbols.G3])
                {
                    Parameters[(int)Symbols.G2] = Parameters[(int)Symbols.G3];
                }
            }
            Parameters[(int)Symbols.G10] = Parameters[(int)Symbols.G2];

            Parameters[(int)Symbols.G5] = Boundaries.Min[(int)Symbols.G5] + rnd.NextDouble() * (Boundaries.Max[(int)Symbols.G5] - Boundaries.Min[(int)Symbols.G5]);
            Parameters[(int)Symbols.G7] = Parameters[(int)Symbols.G5];
            if (Parameters[(int)Symbols.PL] == 0.000)
            {
                Parameters[(int)Symbols.G4] = Parameters[(int)Symbols.G5];
            }
            else
            {
                Parameters[(int)Symbols.G4] = Boundaries.Min[(int)Symbols.G4] + rnd.NextDouble() * (Boundaries.Max[(int)Symbols.G4] - Boundaries.Min[(int)Symbols.G4]);
                if (Parameters[(int)Symbols.G4] < Parameters[(int)Symbols.G5])
                {
                    Parameters[(int)Symbols.G4] = Parameters[(int)Symbols.G5];
                }
            }
            Parameters[(int)Symbols.G8] = Parameters[(int)Symbols.G4];
            for (int p = 0; p < Parameters.Count(); p++)
            {
                Parameters[p] = Math.Round(Math.Round(Parameters[p] / 0.0005) * 0.0005, 4);
            }
        }