public static void Populate(ISimulationObject obj, DynamicLayout container) { var su = obj.GetFlowsheet().FlowsheetOptions.SelectedUnitSystem; var nf = obj.GetFlowsheet().FlowsheetOptions.NumberFormat; var recycle = (EnergyRecycle)obj; s.CreateAndAddLabelRow(container, "Object Details"); s.CreateAndAddTwoLabelsRow(container, "Status", obj.GraphicObject.Active ? "Active" : "Inactive"); s.CreateAndAddStringEditorRow(container, "Name", obj.GraphicObject.Tag, (TextBox arg3, EventArgs ev) => { obj.GraphicObject.Tag = arg3.Text; }); container.CreateAndAddTextBoxRow("N0", "Maximum Iterations", recycle.MaximumIterations, (sender, e) => { if (sender.Text.IsValidDouble()) { recycle.MaximumIterations = int.Parse(sender.Text); } }); container.CreateAndAddLabelRow("Convergence Tolerances"); container.CreateAndAddTextBoxRow(nf, "Energy Flow", cv.ConvertFromSI(su.heatflow, recycle.ConvergenceParameters.Energy), (sender, e) => { if (sender.Text.IsValidDouble()) { recycle.ConvergenceParameters.Energy = cv.ConvertToSI(su.heatflow, sender.Text.ToDoubleFromCurrent()); } }); }
public static void Populate(ISimulationObject obj, DynamicLayout container) { var su = obj.GetFlowsheet().FlowsheetOptions.SelectedUnitSystem; var nf = obj.GetFlowsheet().FlowsheetOptions.NumberFormat; var recycle = (Recycle)obj; s.CreateAndAddLabelRow(container, "Object Details"); s.CreateAndAddTwoLabelsRow(container, "Status", obj.GraphicObject.Active ? "Active" : "Inactive"); s.CreateAndAddStringEditorRow(container, "Name", obj.GraphicObject.Tag, (TextBox arg3, EventArgs ev) => { obj.GraphicObject.Tag = arg3.Text; }); container.CreateAndAddLabelRow("Convergence Control"); container.CreateAndAddCheckBoxRow("Converge using global solver", recycle.AccelerationMethod == Interfaces.Enums.AccelMethod.GlobalBroyden, (sender, e) => { if (sender.Checked.GetValueOrDefault()) { recycle.AccelerationMethod = Interfaces.Enums.AccelMethod.GlobalBroyden; } else { recycle.AccelerationMethod = Interfaces.Enums.AccelMethod.None; } }); container.CreateAndAddLabelRow("Convergence Tolerances"); container.CreateAndAddTextBoxRow(nf, "Mass Flow", cv.ConvertFromSI(su.massflow, recycle.ConvergenceParameters.VazaoMassica), (sender, e) => { if (sender.Text.IsValidDouble()) { recycle.ConvergenceParameters.VazaoMassica = cv.ConvertToSI(su.massflow, sender.Text.ToDoubleFromCurrent()); } }); container.CreateAndAddTextBoxRow(nf, "Temperature", cv.ConvertFromSI(su.deltaT, recycle.ConvergenceParameters.Temperatura), (sender, e) => { if (sender.Text.IsValidDouble()) { recycle.ConvergenceParameters.Temperatura = cv.ConvertToSI(su.deltaT, sender.Text.ToDoubleFromCurrent()); } }); container.CreateAndAddTextBoxRow(nf, "Pressure", cv.ConvertFromSI(su.deltaP, recycle.ConvergenceParameters.Pressao), (sender, e) => { if (sender.Text.IsValidDouble()) { recycle.ConvergenceParameters.Pressao = cv.ConvertToSI(su.deltaP, sender.Text.ToDoubleFromCurrent()); } }); }
void Initialize() { var su = SimObject.GetFlowsheet().FlowsheetOptions.SelectedUnitSystem; var nf = SimObject.GetFlowsheet().FlowsheetOptions.NumberFormat; var nff = SimObject.GetFlowsheet().FlowsheetOptions.FractionNumberFormat; s.CreateAndAddLabelRow(container, "Dynamic Properties Editor"); s.CreateAndAddDescriptionRow(container, "Property values are updated/stored as they are changed/edited. There's no need to press ENTER to commit the changes."); switch (SimObject.GraphicObject.ObjectType) { case ObjectType.MaterialStream: container.CreateAndAddDropDownRow("Dynamic Specification", SimObject.DynamicsSpec.GetEnumNames(), (int)SimObject.DynamicsSpec, (dd, e) => { SimObject.DynamicsSpec = dd.SelectedIndex.ToEnum <Interfaces.Enums.Dynamics.DynamicsSpecType>(); SimObject.GetFlowsheet().UpdateInterface(); }); break; } var col1 = (IDictionary <string, object>)SimObject.ExtraProperties; var col2 = (IDictionary <string, object>)SimObject.ExtraPropertiesDescriptions; var col3 = (IDictionary <string, object>)SimObject.ExtraPropertiesUnitTypes; foreach (var p in col1) { if (col2.ContainsKey(p.Key) && col3.ContainsKey(p.Key)) { string unitsstring = ""; try { var utype = col3[p.Key]; Interfaces.Enums.UnitOfMeasure eval = (Interfaces.Enums.UnitOfMeasure)System.Enum.ToObject(typeof(Interfaces.Enums.UnitOfMeasure), utype); unitsstring = su.GetCurrentUnits(eval); } catch { } container.CreateAndAddTextBoxRow("G", unitsstring != "" ? p.Key + " (" + unitsstring + ")" : p.Key, p.Value.ToString().ToDoubleFromCurrent(), (tb, e) => { try { col1[p.Key] = tb.Text.ToDoubleFromCurrent(); tb.TextColor = Colors.Blue; } catch { tb.TextColor = Colors.Red; } }); container.CreateAndAddDescriptionRow(col2[p.Key].ToString()); container.CreateAndAddEmptySpace(); } } s.CreateAndAddEmptySpace(container); s.CreateAndAddEmptySpace(container); }
void Initialize() { double dummy = 0.0f; var su = flowsheet.FlowsheetOptions.SelectedUnitSystem; var nf = flowsheet.FlowsheetOptions.NumberFormat; if (section.TipoSegmento == "Tubulaosimples") { section.TipoSegmento = "Straight Tube Section"; } var lblseg = container.CreateAndAddTwoLabelsRow("Segment", section.Indice.ToString()); var spinnerType = container.CreateAndAddDropDownRow("Type", sectypes, Array.IndexOf(sectypes.ToArray(), section.TipoSegmento), (sender, e) => section.TipoSegmento = sectypes[sender.SelectedIndex]); var spinnerMat = container.CreateAndAddDropDownRow("Material", materials, Array.IndexOf(materials.ToArray(), section.Material), (sender, e) => section.Material = materials[sender.SelectedIndex]); var txtIncrements = container.CreateAndAddTextBoxRow("N0", "Increments", section.Incrementos, (sender, e) => { if (double.TryParse(sender.Text.ToString(), out dummy)) { section.Incrementos = int.Parse(sender.Text.ToString()); } }); var txtLength = container.CreateAndAddTextBoxRow(nf, "Length" + " (" + su.distance + ")", cv.ConvertFromSI(su.distance, section.Comprimento), (sender, e) => { if (double.TryParse(sender.Text.ToString(), out dummy)) { section.Comprimento = cv.ConvertToSI(su.distance, double.Parse(sender.Text.ToString())); } }); var txtElevation = container.CreateAndAddTextBoxRow(nf, "Elevation" + " (" + su.distance + ")", cv.ConvertFromSI(su.distance, section.Elevacao), (sender, e) => { if (double.TryParse(sender.Text.ToString(), out dummy)) { section.Elevacao = cv.ConvertToSI(su.distance, double.Parse(sender.Text.ToString())); } }); var txtED = container.CreateAndAddTextBoxRow(nf, "External Diameter" + " (" + su.diameter + ")", cv.Convert("in", su.diameter, section.DE), (sender, e) => { if (double.TryParse(sender.Text.ToString(), out dummy)) { section.DE = cv.Convert(su.diameter, "in", double.Parse(sender.Text.ToString())); } }); var txtID = container.CreateAndAddTextBoxRow(nf, "Internal Diameter" + " (" + su.diameter + ")", cv.Convert("in", su.diameter, section.DI), (sender, e) => { if (double.TryParse(sender.Text.ToString(), out dummy)) { section.DI = cv.Convert(su.diameter, "in", double.Parse(sender.Text.ToString())); } }); }
void Initialize() { container.CreateAndAddLabelRow("Reaction ID"); container.CreateAndAddStringEditorRow2("Name", "", rx.Name, (sender, e) => { rx.Name = sender.Text; }); container.CreateAndAddLabelRow("Compounds and Stoichiometry (Include / Name / Stoich. Coeff. / Direct Order Exponent / Reverse Order Exponent)"); var compcontainer = new DynamicLayout(); compcontainer.BackgroundColor = Colors.White; Double val; foreach (ICompoundConstantProperties comp in flowsheet.SelectedCompounds.Values) { var chk = new CheckBox() { Text = comp.Name, Checked = (rx.Components.ContainsKey(comp.Name) ? true : false) }; chk.CheckedChanged += (sender, e) => { if (!rx.Components.ContainsKey(comp.Name)) { rx.Components.Add(comp.Name, new DWSIM.Thermodynamics.BaseClasses.ReactionStoichBase(comp.Name, 0, false, 0, 0)); } else { rx.Components.Remove(comp.Name); } UpdateEquation(); }; var sc = new TextBox() { Width = (int)(sf * 30), Text = (rx.Components.ContainsKey(comp.Name) ? rx.Components[comp.Name].StoichCoeff.ToString() : 0.0f.ToString()) }; sc.TextChanged += (sender, e) => { if (Double.TryParse(sc.Text.ToString(), out val)) { sc.TextColor = SystemColors.ControlText; if (!rx.Components.ContainsKey(comp.Name)) { rx.Components.Add(comp.Name, new DWSIM.Thermodynamics.BaseClasses.ReactionStoichBase(comp.Name, Double.Parse(sc.Text), false, 0, 0)); } else { rx.Components[comp.Name].StoichCoeff = double.Parse(sc.Text); } UpdateEquation(); } else { sc.TextColor = Colors.Red; } }; var txtdo = new TextBox() { Width = (int)(sf * 30), Text = (rx.Components.ContainsKey(comp.Name) ? rx.Components[comp.Name].DirectOrder.ToString() : 0.0f.ToString()) }; txtdo.TextChanged += (sender, e) => { if (Double.TryParse(txtdo.Text.ToString(), out val)) { txtdo.TextColor = SystemColors.ControlText; if (!rx.Components.ContainsKey(comp.Name)) { rx.Components.Add(comp.Name, new DWSIM.Thermodynamics.BaseClasses.ReactionStoichBase(comp.Name, 0, false, Double.Parse(txtdo.Text), 0)); } else { rx.Components[comp.Name].DirectOrder = double.Parse(txtdo.Text); } UpdateEquation(); } else { txtdo.TextColor = Colors.Red; } }; var txtro = new TextBox() { Width = (int)(sf * 30), Text = (rx.Components.ContainsKey(comp.Name) ? rx.Components[comp.Name].ReverseOrder.ToString() : 0.0f.ToString()) }; txtro.TextChanged += (sender, e) => { if (Double.TryParse(txtro.Text.ToString(), out val)) { txtro.TextColor = SystemColors.ControlText; if (!rx.Components.ContainsKey(comp.Name)) { rx.Components.Add(comp.Name, new DWSIM.Thermodynamics.BaseClasses.ReactionStoichBase(comp.Name, 0, false, 0, Double.Parse(txtro.Text))); } else { rx.Components[comp.Name].ReverseOrder = double.Parse(txtro.Text); } UpdateEquation(); } else { txtro.TextColor = Colors.Red; } }; compcontainer.Add(new TableRow(chk, null, sc, txtdo, txtro)); } container.CreateAndAddControlRow(compcontainer); container.CreateAndAddEmptySpace(); var comps = flowsheet.SelectedCompounds.Values.Select((x) => x.Name).ToList(); comps.Insert(0, ""); container.CreateAndAddLabelRow("Base Compound"); var basecompselector = container.CreateAndAddDropDownRow("Base Compound", comps, 0, null); var basecomp = rx.Components.Values.Where((x) => x.IsBaseReactant).FirstOrDefault(); if (basecomp != null) { basecompselector.SelectedIndex = comps.IndexOf(basecomp.CompName); } else { basecompselector.SelectedIndex = 0; } basecompselector.SelectedIndexChanged += (sender, e) => { if (rx.Components.ContainsKey(comps[basecompselector.SelectedIndex])) { foreach (var rxc in rx.Components.Values) { rxc.IsBaseReactant = false; } rx.Components[comps[basecompselector.SelectedIndex]].IsBaseReactant = true; rx.BaseReactant = comps[basecompselector.SelectedIndex]; } }; container.CreateAndAddLabelRow("Reaction Balance"); txtEquation = container.CreateAndAddLabelRow2(""); container.CreateAndAddLabelRow("Reaction Phase"); var rxphaseselector = container.CreateAndAddDropDownRow("Reaction Phase", Shared.StringArrays.reactionphase().ToList(), 0, null); switch (rx.ReactionPhase) { case Interfaces.Enums.PhaseName.Vapor: rxphaseselector.SelectedIndex = (0); break; case Interfaces.Enums.PhaseName.Liquid: rxphaseselector.SelectedIndex = (1); break; case Interfaces.Enums.PhaseName.Mixture: rxphaseselector.SelectedIndex = (2); break; } rxphaseselector.SelectedIndexChanged += (sender, e) => { switch (rxphaseselector.SelectedIndex) { case 0: rx.ReactionPhase = Interfaces.Enums.PhaseName.Vapor; break; case 1: rx.ReactionPhase = Interfaces.Enums.PhaseName.Liquid; break; case 2: rx.ReactionPhase = Interfaces.Enums.PhaseName.Mixture; break; } }; container.CreateAndAddLabelRow("Reaction Basis"); var rxbasisselector = container.CreateAndAddDropDownRow("Reaction Basis", Shared.StringArrays.reactionbasis().ToList(), 0, null); switch (rx.ReactionBasis) { case Interfaces.Enums.ReactionBasis.Activity: rxphaseselector.SelectedIndex = (0); break; case Interfaces.Enums.ReactionBasis.Fugacity: rxphaseselector.SelectedIndex = (1); break; case Interfaces.Enums.ReactionBasis.MassConc: rxphaseselector.SelectedIndex = (2); break; case Interfaces.Enums.ReactionBasis.MassFrac: rxphaseselector.SelectedIndex = (3); break; case Interfaces.Enums.ReactionBasis.MolarConc: rxphaseselector.SelectedIndex = (4); break; case Interfaces.Enums.ReactionBasis.MolarFrac: rxphaseselector.SelectedIndex = (5); break; case Interfaces.Enums.ReactionBasis.PartialPress: rxphaseselector.SelectedIndex = (6); break; } rxbasisselector.SelectedIndexChanged += (sender, e) => { switch (rxbasisselector.SelectedIndex) { case 0: rx.ReactionBasis = Interfaces.Enums.ReactionBasis.Activity; break; case 1: rx.ReactionBasis = Interfaces.Enums.ReactionBasis.Fugacity; break; case 2: rx.ReactionBasis = Interfaces.Enums.ReactionBasis.MassConc; break; case 3: rx.ReactionBasis = Interfaces.Enums.ReactionBasis.MassFrac; break; case 4: rx.ReactionBasis = Interfaces.Enums.ReactionBasis.MolarConc; break; case 5: rx.ReactionBasis = Interfaces.Enums.ReactionBasis.MolarFrac; break; case 6: rx.ReactionBasis = Interfaces.Enums.ReactionBasis.PartialPress; break; } }; container.CreateAndAddLabelRow("Kinetic Parameters"); var nf = flowsheet.FlowsheetOptions.NumberFormat; var su = flowsheet.FlowsheetOptions.SelectedUnitSystem; container.CreateAndAddTextBoxRow(nf, "Minimum Temperature", rx.Tmin.ConvertFromSI(su.temperature), (sender, e) => { if (sender.Text.IsValidDouble()) { rx.Tmin = sender.Text.ToDoubleFromCurrent().ConvertToSI(su.temperature); } }); container.CreateAndAddTextBoxRow(nf, "Maximum Temperature", rx.Tmax.ConvertFromSI(su.temperature), (sender, e) => { if (sender.Text.IsValidDouble()) { rx.Tmax = sender.Text.ToDoubleFromCurrent().ConvertToSI(su.temperature); } }); container.CreateAndAddLabelRow2("Direct and Reverse Reactions Velocity Constants (k = A*exp(-E/RT), E in J/mol and T in K)"); container.CreateAndAddStringEditorRow2("Direct Reaction A", "", rx.A_Forward.ToString(), (sender, e) => { if (Double.TryParse(sender.Text.ToString(), out val)) { sender.TextColor = SystemColors.ControlText; rx.A_Forward = double.Parse(sender.Text); } else { sender.TextColor = Colors.Red; } }); container.CreateAndAddStringEditorRow2("Direct Reaction E", "", rx.E_Forward.ToString(), (sender, e) => { if (Double.TryParse(sender.Text.ToString(), out val)) { sender.TextColor = SystemColors.ControlText; rx.E_Forward = double.Parse(sender.Text); } else { sender.TextColor = Colors.Red; } }); container.CreateAndAddStringEditorRow2("Reverse Reaction A", "", rx.A_Reverse.ToString(), (sender, e) => { if (Double.TryParse(sender.Text.ToString(), out val)) { sender.TextColor = SystemColors.ControlText; rx.A_Reverse = double.Parse(sender.Text); } else { sender.TextColor = Colors.Red; } }); container.CreateAndAddStringEditorRow2("Reverse Reaction E", "", rx.E_Reverse.ToString(), (sender, e) => { if (Double.TryParse(sender.Text.ToString(), out val)) { sender.TextColor = SystemColors.ControlText; rx.E_Reverse = double.Parse(sender.Text); } else { sender.TextColor = Colors.Red; } }); container.CreateAndAddLabelRow("Units"); var us = new DWSIM.SharedClasses.SystemsOfUnits.Units(); var units = us.GetUnitSet(Interfaces.Enums.UnitOfMeasure.molar_conc); units.AddRange(us.GetUnitSet(Interfaces.Enums.UnitOfMeasure.mass_conc)); units.AddRange(us.GetUnitSet(Interfaces.Enums.UnitOfMeasure.pressure)); units.Insert(0, ""); container.CreateAndAddDropDownRow("Basis Units (Base Compound)", units, units.IndexOf(rx.ConcUnit), (sender, e) => rx.ConcUnit = sender.SelectedValue.ToString()); var units2 = us.GetUnitSet(Interfaces.Enums.UnitOfMeasure.reac_rate); units2.Insert(0, ""); container.CreateAndAddDropDownRow("Velocity Units", units2, units2.IndexOf(rx.VelUnit), (sender, e) => rx.VelUnit = sender.SelectedValue.ToString()); UpdateEquation(); }
void Initialize() { var su = flowsheet.FlowsheetOptions.SelectedUnitSystem; var nf = flowsheet.FlowsheetOptions.NumberFormat; if (section.TipoSegmento == "Tubulaosimples") { section.TipoSegmento = "Straight Tube Section"; } var lblseg = container.CreateAndAddTwoLabelsRow("Segment", section.Indice.ToString()); container.CreateAndAddDropDownRow("Type", sectypes, Array.IndexOf(sectypes.ToArray(), section.TipoSegmento), (sender, e) => section.TipoSegmento = sectypes[sender.SelectedIndex]); var cbm = container.CreateAndAddDropDownRow("Material", materials, Array.IndexOf(materials.ToArray(), section.Material), (sender, e) => section.Material = materials[sender.SelectedIndex]); var tbr = container.CreateAndAddTextBoxRow("G8", "Rugosity " + " (" + su.distance + ") *", cv.ConvertFromSI(su.distance, section.PipeWallRugosity), (sender, e) => { if (sender.Text.IsValidDoubleExpression()) { section.PipeWallRugosity = cv.ConvertToSI(su.distance, sender.Text.ParseExpressionToDouble()); } }); var tbtc = container.CreateAndAddStringEditorRow("Thermal Conductivity " + " (" + su.thermalConductivity + ") *", section.PipeWallThermalConductivityExpression, (sender, e) => { section.PipeWallThermalConductivityExpression = sender.Text.ToString(); }); container.CreateAndAddTextBoxRow("N0", "Increments", section.Incrementos, (sender, e) => { if (sender.Text.IsValidDoubleExpression()) { section.Incrementos = int.Parse(sender.Text.ToString()); } }); container.CreateAndAddTextBoxRow("N0", "Quantity", section.Quantidade, (sender, e) => { if (sender.Text.IsValidDoubleExpression()) { section.Quantidade = int.Parse(sender.Text.ToString()); } }); container.CreateAndAddTextBoxRow(nf, "Length" + " (" + su.distance + ")", cv.ConvertFromSI(su.distance, section.Comprimento), (sender, e) => { if (sender.Text.IsValidDoubleExpression()) { section.Comprimento = cv.ConvertToSI(su.distance, sender.Text.ParseExpressionToDouble()); } }); container.CreateAndAddTextBoxRow(nf, "Elevation" + " (" + su.distance + ")", cv.ConvertFromSI(su.distance, section.Elevacao), (sender, e) => { if (sender.Text.IsValidDoubleExpression()) { section.Elevacao = cv.ConvertToSI(su.distance, sender.Text.ParseExpressionToDouble()); } }); container.CreateAndAddTextBoxRow(nf, "External Diameter" + " (" + su.diameter + ")", cv.Convert("in", su.diameter, section.DE), (sender, e) => { if (sender.Text.IsValidDoubleExpression()) { section.DE = cv.Convert(su.diameter, "in", sender.Text.ParseExpressionToDouble()); } }); container.CreateAndAddTextBoxRow(nf, "Internal Diameter" + " (" + su.diameter + ")", cv.Convert("in", su.diameter, section.DI), (sender, e) => { if (sender.Text.IsValidDoubleExpression()) { section.DI = cv.Convert(su.diameter, "in", sender.Text.ParseExpressionToDouble()); } }); container.CreateAndAddDescriptionRow("* Fields required/used only for User-Defined materials"); tbr.ReadOnly = section.Material != flowsheet.GetTranslatedString("UserDefined"); tbtc.ReadOnly = tbr.ReadOnly; if (tbr.ReadOnly) { tbr.BackgroundColor = Eto.Drawing.Colors.LightGrey; tbtc.BackgroundColor = Eto.Drawing.Colors.LightGrey; } else { tbr.BackgroundColor = Eto.Drawing.SystemColors.ControlBackground; tbtc.BackgroundColor = Eto.Drawing.SystemColors.ControlBackground; } cbm.SelectedValueChanged += (sender, e) => { if (cbm.SelectedValue.ToString() == flowsheet.GetTranslatedString("UserDefined")) { tbr.ReadOnly = false; tbtc.ReadOnly = false; tbr.BackgroundColor = Eto.Drawing.SystemColors.ControlBackground; tbtc.BackgroundColor = Eto.Drawing.SystemColors.ControlBackground; tbr.Text = section.PipeWallRugosity.ConvertFromSI(su.distance).ToString(nf); tbtc.Text = section.PipeWallThermalConductivityExpression; tbtc.TextAlignment = TextAlignment.Left; } else { tbr.ReadOnly = true; tbtc.ReadOnly = true; tbr.BackgroundColor = Eto.Drawing.Colors.LightGrey; tbtc.BackgroundColor = Eto.Drawing.Colors.LightGrey; tbr.Text = pipe.rugosidade(cbm.SelectedValue.ToString(), section).ConvertFromSI(su.distance).ToString(nf); if (pipe.GraphicObject.InputConnectors[0].IsAttached) { var stream = (MaterialStream)flowsheet.SimulationObjects[pipe.GraphicObject.InputConnectors[0].AttachedConnector.AttachedFrom.Name]; tbtc.Text = pipe.k_parede(cbm.SelectedValue.ToString(), stream.GetTemperature(), section).ConvertFromSI(su.thermalConductivity).ToString(nf); } else { tbtc.Text = pipe.k_parede(cbm.SelectedValue.ToString(), 298.15, section).ConvertFromSI(su.thermalConductivity).ToString(nf); } tbtc.TextAlignment = TextAlignment.Right; } }; }
void Initialize() { container.CreateAndAddLabelRow("Reaction ID"); container.CreateAndAddStringEditorRow2("Name", "", rx.Name, (sender, e) => { rx.Name = sender.Text; }); container.CreateAndAddLabelRow("Compounds and Stoichiometry (Include / Name / Heat of Formation (kJ/kg) / Stoich. Coeff.)"); var compcontainer = new DynamicLayout(); //compcontainer.BackgroundColor = Colors.White; Double val; foreach (ICompoundConstantProperties comp in flowsheet.SelectedCompounds.Values) { var chk = new CheckBox() { Text = comp.Name, Checked = (rx.Components.ContainsKey(comp.Name) ? true : false) }; chk.CheckedChanged += (sender, e) => { if (!rx.Components.ContainsKey(comp.Name)) { rx.Components.Add(comp.Name, new DWSIM.Thermodynamics.BaseClasses.ReactionStoichBase(comp.Name, 0, false, 0, 0)); } else { rx.Components.Remove(comp.Name); } UpdateEquation(); }; var sc = new TextBox() { Width = (int)(sf * 50), Text = (rx.Components.ContainsKey(comp.Name) ? rx.Components[comp.Name].StoichCoeff.ToString() : 0.0f.ToString()) }; sc.TextChanged += (sender, e) => { if (Double.TryParse(sc.Text.ToString(), out val)) { sc.TextColor = SystemColors.ControlText; if (!rx.Components.ContainsKey(comp.Name)) { rx.Components.Add(comp.Name, new DWSIM.Thermodynamics.BaseClasses.ReactionStoichBase(comp.Name, Double.Parse(sc.Text), false, 0, 0)); } else { rx.Components[comp.Name].StoichCoeff = double.Parse(sc.Text); } UpdateEquation(); } else { sc.TextColor = Colors.Red; } }; var hf = new TextBox() { Enabled = false, Width = (int)(sf * 100), Text = comp.IG_Enthalpy_of_Formation_25C.ToString("N2") }; compcontainer.Add(new TableRow(chk, null, hf, sc)); } container.CreateAndAddControlRow(compcontainer); container.CreateAndAddEmptySpace(); var comps = flowsheet.SelectedCompounds.Values.Select((x) => x.Name).ToList(); comps.Insert(0, ""); container.CreateAndAddLabelRow("Base Compound"); var basecompselector = container.CreateAndAddDropDownRow("Base Compound", comps, 0, null); var basecomp = rx.Components.Values.Where((x) => x.IsBaseReactant).FirstOrDefault(); if (basecomp != null) { basecompselector.SelectedIndex = comps.IndexOf(basecomp.CompName); } else { basecompselector.SelectedIndex = 0; } basecompselector.SelectedIndexChanged += (sender, e) => { if (rx.Components.ContainsKey(comps[basecompselector.SelectedIndex])) { foreach (var rxc in rx.Components.Values) { rxc.IsBaseReactant = false; } rx.Components[comps[basecompselector.SelectedIndex]].IsBaseReactant = true; rx.BaseReactant = comps[basecompselector.SelectedIndex]; } }; container.CreateAndAddLabelRow("Reaction Balance"); txtEquation = container.CreateAndAddLabelRow2(""); container.CreateAndAddLabelRow("Temperature Limits"); var nf = flowsheet.FlowsheetOptions.NumberFormat; var su = flowsheet.FlowsheetOptions.SelectedUnitSystem; container.CreateAndAddTextBoxRow(nf, "Minimum Temperature (" + su.temperature + ")", rx.Tmin.ConvertFromSI(su.temperature), (sender, e) => { if (sender.Text.IsValidDouble()) { rx.Tmin = sender.Text.ToDoubleFromCurrent().ConvertToSI(su.temperature); } }); container.CreateAndAddTextBoxRow(nf, "Maximum Temperature (" + su.temperature + ")", rx.Tmax.ConvertFromSI(su.temperature), (sender, e) => { if (sender.Text.IsValidDouble()) { rx.Tmax = sender.Text.ToDoubleFromCurrent().ConvertToSI(su.temperature); } }); container.CreateAndAddLabelRow("Reaction Phase"); var rxphaseselector = container.CreateAndAddDropDownRow("Reaction Phase", Shared.StringArrays.reactionphase().ToList(), 0, null); switch (rx.ReactionPhase) { case Interfaces.Enums.PhaseName.Mixture: rxphaseselector.SelectedIndex = (0); break; case Interfaces.Enums.PhaseName.Vapor: rxphaseselector.SelectedIndex = (1); break; case Interfaces.Enums.PhaseName.Liquid: rxphaseselector.SelectedIndex = (2); break; } rxphaseselector.SelectedIndexChanged += (sender, e) => { switch (rxphaseselector.SelectedIndex) { case 0: rx.ReactionPhase = Interfaces.Enums.PhaseName.Mixture; break; case 1: rx.ReactionPhase = Interfaces.Enums.PhaseName.Vapor; break; case 2: rx.ReactionPhase = Interfaces.Enums.PhaseName.Liquid; break; } }; UpdateEquation(); }
void Initialize() { var su = flowsheet.FlowsheetOptions.SelectedUnitSystem; var nf = flowsheet.FlowsheetOptions.NumberFormat; if (section.TipoSegmento == "Tubulaosimples") { section.TipoSegmento = "Straight Tube Section"; } var lblseg = container.CreateAndAddTwoLabelsRow("Segment", section.Indice.ToString()); container.CreateAndAddDropDownRow("Type", sectypes, Array.IndexOf(sectypes.ToArray(), section.TipoSegmento), (sender, e) => section.TipoSegmento = sectypes[sender.SelectedIndex]); var cbm = container.CreateAndAddDropDownRow("Material", materials, Array.IndexOf(materials.ToArray(), section.Material), (sender, e) => section.Material = materials[sender.SelectedIndex]); var tbr = container.CreateAndAddTextBoxRow("G8", "Rugosity " + " (" + su.distance + ") *", cv.ConvertFromSI(su.distance, section.PipeWallRugosity), (sender, e) => { if (sender.Text.IsValidDoubleExpression()) { section.PipeWallRugosity = cv.ConvertToSI(su.distance, sender.Text.ParseExpressionToDouble()); } }); var tbtc = container.CreateAndAddStringEditorRow("Thermal Conductivity " + " (" + su.thermalConductivity + ") *", section.PipeWallThermalConductivityExpression, (sender, e) => { section.PipeWallThermalConductivityExpression = sender.Text.ToString(); }); container.CreateAndAddDescriptionRow("* Fields required/used only for User-Defined materials"); container.CreateAndAddTextBoxRow("N0", "Increments", section.Incrementos, (sender, e) => { if (sender.Text.IsValidDoubleExpression()) { section.Incrementos = int.Parse(sender.Text.ToString()); } }); container.CreateAndAddTextBoxRow("N0", "Quantity", section.Quantidade, (sender, e) => { if (sender.Text.IsValidDoubleExpression()) { section.Quantidade = int.Parse(sender.Text.ToString()); } }); container.CreateAndAddTextBoxRow(nf, "Length" + " (" + su.distance + ")", cv.ConvertFromSI(su.distance, section.Comprimento), (sender, e) => { if (sender.Text.IsValidDoubleExpression()) { section.Comprimento = cv.ConvertToSI(su.distance, sender.Text.ParseExpressionToDouble()); } }); container.CreateAndAddTextBoxRow(nf, "Elevation" + " (" + su.distance + ")", cv.ConvertFromSI(su.distance, section.Elevacao), (sender, e) => { if (sender.Text.IsValidDoubleExpression()) { section.Elevacao = cv.ConvertToSI(su.distance, sender.Text.ParseExpressionToDouble()); } }); var edtb = container.CreateAndAddTextBoxRow(nf, "External Diameter" + " (" + su.diameter + ")", cv.Convert("in", su.diameter, section.DE), (sender, e) => { if (sender.Text.IsValidDoubleExpression()) { section.DE = cv.Convert(su.diameter, "in", sender.Text.ParseExpressionToDouble()); } }); var idtb = container.CreateAndAddTextBoxRow(nf, "Internal Diameter" + " (" + su.diameter + ")", cv.Convert("in", su.diameter, section.DI), (sender, e) => { if (sender.Text.IsValidDoubleExpression()) { section.DI = cv.Convert(su.diameter, "in", sender.Text.ParseExpressionToDouble()); } }); var ssizes = Pipe.GetStandardPipeSizes(); var cmenussizes = new ContextMenu(); foreach (var key in ssizes.Keys) { var mi = new ButtonMenuItem { Text = key }; foreach (var item in ssizes[key]) { var mi2 = new ButtonMenuItem { Text = item.StandardSizeDescription + " (OD = " + item.ExternalDiameter_Inches + " in., ID = " + item.InternalDiameter_Inches + " in.)" }; mi2.Click += (s, e) => { flowsheet.RunCodeOnUIThread(() => { edtb.Text = item.ExternalDiameter_Inches.ConvertUnits("in", su.diameter).ToString(nf); idtb.Text = item.InternalDiameter_Inches.ConvertUnits("in", su.diameter).ToString(nf); }); }; mi.Items.Add(mi2); } cmenussizes.Items.Add(mi); } container.CreateAndAddButtonRow("Standard Pipe Sizes...", null, (btn, ev) => { cmenussizes.Show(btn); }); tbr.ReadOnly = section.Material != flowsheet.GetTranslatedString("UserDefined"); tbtc.ReadOnly = tbr.ReadOnly; if (tbr.ReadOnly) { tbr.BackgroundColor = Eto.Drawing.Colors.LightGrey; tbtc.BackgroundColor = Eto.Drawing.Colors.LightGrey; } else { tbr.BackgroundColor = Eto.Drawing.SystemColors.ControlBackground; tbtc.BackgroundColor = Eto.Drawing.SystemColors.ControlBackground; } cbm.SelectedValueChanged += (sender, e) => { if (cbm.SelectedValue.ToString() == flowsheet.GetTranslatedString("UserDefined")) { tbr.ReadOnly = false; tbtc.ReadOnly = false; tbr.BackgroundColor = Eto.Drawing.SystemColors.ControlBackground; tbtc.BackgroundColor = Eto.Drawing.SystemColors.ControlBackground; tbr.Text = section.PipeWallRugosity.ConvertFromSI(su.distance).ToString(nf); tbtc.Text = section.PipeWallThermalConductivityExpression; tbtc.TextAlignment = TextAlignment.Left; } else { tbr.ReadOnly = true; tbtc.ReadOnly = true; tbr.BackgroundColor = Eto.Drawing.Colors.LightGrey; tbtc.BackgroundColor = Eto.Drawing.Colors.LightGrey; tbr.Text = pipe.GetRugosity(cbm.SelectedValue.ToString(), section).ConvertFromSI(su.distance).ToString(nf); if (pipe.GraphicObject != null && pipe.GraphicObject.InputConnectors[0].IsAttached) { var stream = (MaterialStream)flowsheet.SimulationObjects[pipe.GraphicObject.InputConnectors[0].AttachedConnector.AttachedFrom.Name]; tbtc.Text = pipe.k_parede(cbm.SelectedValue.ToString(), stream.GetTemperature(), section).ConvertFromSI(su.thermalConductivity).ToString(nf); } else { tbtc.Text = pipe.k_parede(cbm.SelectedValue.ToString(), 298.15, section).ConvertFromSI(su.thermalConductivity).ToString(nf); } tbtc.TextAlignment = TextAlignment.Right; } }; }