public void FindInterceptionTest() { //| x1 x2 y1 | //|--+--[ ]--[OSR]--+--[/]----( )--| //| | y1 x3 | | //| +--[ ]---[ ]---+ | // Rung TestRung = new Rung(); var Y1 = new Coil(); Y1.Name = "1"; var X1 = new Contact(); X1.Name = "1"; var X2 = new Contact(); X2.Name = "2"; X2.IsInverted = true; var X3 = new Contact(); X3.Name = "2"; X3.IsInverted = true; var Y1C = new Contact(); Y1C.Name = "1"; Y1C.Type = Contact.ContactType.OutputPin; TestRung.Add(Y1); TestRung.InsertBefore(X2, Y1); TestRung.Add(X1); TestRung.InsertUnder(Y1C, X1); TestRung.InsertAfter(new OSR(), X1); TestRung.InsertAfter(X3, Y1C); Tuple <Node, Node> temp; temp = TestRung.FindInterception(Y1C, X3); Assert.IsNull(temp); temp = TestRung.FindInterception(Y1C, X2); Assert.IsNull(temp); temp = TestRung.FindInterception(Y1C, Y1); Assert.IsNull(temp); temp = TestRung.FindInterception(Y1C, X1); Assert.AreEqual(temp.Item1, X1.LeftLide); Assert.AreEqual(temp.Item2, X3.RightLide); temp = TestRung.FindInterception(X3, X1); Assert.AreEqual(temp.Item1, X1.LeftLide); Assert.AreEqual(temp.Item2, X3.RightLide); }
public void GetAllBetweenTest() { //| x1 x2 y1 | //|--+--[ ]--[OSR]--+--[/]----( )--| //| | y1 x3 | | //| +--[ ]---[ ]---+ | // Rung TestRung = new Rung(); var Y1 = new Coil(); Y1.Name = "1"; var X1 = new Contact(); X1.Name = "1"; var X2 = new Contact(); X2.Name = "2"; X2.IsInverted = true; var X3 = new Contact(); X3.Name = "2"; X3.IsInverted = true; var Y1C = new Contact(); Y1C.Name = "1"; Y1C.Type = Contact.ContactType.OutputPin; TestRung.Add(Y1); TestRung.InsertBefore(X2, Y1); TestRung.Add(X1); TestRung.InsertUnder(Y1C, X1); TestRung.InsertAfter(new OSR(), X1); TestRung.InsertAfter(X3, Y1C); Assert.AreEqual(TestRung.GetAllBetween(X1.LeftLide, X1.RightLide).Count, 1); Assert.AreEqual(TestRung.GetAllBetween(X1.LeftLide, X3.RightLide).Count, 4); Assert.AreEqual(TestRung.GetAllBetween(X1.LeftLide, X2.RightLide).Count, 5); Assert.AreEqual(TestRung.GetAllBetween(X1.LeftLide, Y1.RightLide).Count, 6); }
public void BasicTest() { //| x1 x2 y1 | //|--+--[ ]--[OSR]--+--[/]----( )--| //| | y1 | | //| +--[ ]---------+ | // Rung TestRung = new Rung(); var Y1 = new Coil(); Y1.Name = "1"; var X1 = new Contact(); X1.Name = "1"; var X2 = new Contact(); X2.Name = "2"; X2.IsInverted = true; var Y1C = new Contact(); Y1C.Name = "1"; Y1C.Type = Contact.ContactType.OutputPin; TestRung.Add(Y1); TestRung.InsertBefore(X2, Y1); TestRung.Add(X1); TestRung.InsertUnder(Y1C, X1); TestRung.InsertAfter(new OSR(), X1); Trace.WriteLine("Memory alloc"); Trace.Indent(); TestRung.DataTable = new Core.Data.LadderDataTable(); Trace.Unindent(); Trace.WriteLine("Cycle 1", "Unit Test"); Trace.Indent(); TestRung.Execute(); Trace.Unindent(); Trace.WriteLine("Cycle 2", "Unit Test"); Trace.Indent(); TestRung.DataTable.SetValue("X1", true); TestRung.Execute(); Trace.Unindent(); Trace.WriteLine("Cycle 3", "Unit Test"); Trace.Indent(); TestRung.DataTable.SetValue("X1", false); TestRung.Execute(); Trace.Unindent(); Trace.WriteLine("Cycle 4", "Unit Test"); Trace.Indent(); TestRung.Execute(); Trace.Unindent(); Trace.WriteLine("Cycle 5", "Unit Test"); Trace.Indent(); TestRung.DataTable.SetValue("X2", true); TestRung.Execute(); Trace.Unindent(); Trace.WriteLine("END", "Unit Test"); TestRung.Clear(); TestRung = null; GC.Collect(); }
public void FileSave() { //| x1 y2 x2 y1 | //|--+--[ ]--[OSR]--[/]--+--[/]----( )--| //| | y1 | | //| +--[ ]--------------+ | //| | //| x2 y1 x1 y2 | //|--+--[ ]--[OSR]--[/]--+--[/]----( )--| //| | y2 | | //| +--[ ]--------------+ | //| | //| | //|--[ ]------------------------+--( )--| //| | | //| +--( )--| //| | | //| +--( )--| //| | //| | //|--+--[ ]--+-+--[ ]--+-----------( )--| //| | | | | | //| +--[ ]--+ +--[ ]--+ | Diagram TestDiagram = new Diagram(); #region Declare Components Rung Rung1 = new Rung(); Rung Rung2 = new Rung(); Rung Rung3 = new Rung(); Rung Rung4 = new Rung(); var Y1 = new Coil(); Y1.Name = "1"; var Y2 = new Coil(); Y2.Name = "2"; var X1 = new Contact(); X1.Name = "1"; var X1I = new Contact(); X1I.Name = "1"; X1I.IsInverted = true; var X2 = new Contact(); X2.Name = "2"; var X2I = new Contact(); X2I.Name = "2"; X2I.IsInverted = true; var Y1C = new Contact(); Y1C.Name = "1"; Y1C.Type = Contact.ContactType.OutputPin; var Y1CI = new Contact(); Y1CI.Name = "1"; Y1CI.Type = Contact.ContactType.OutputPin; Y1CI.IsInverted = true; var Y2C = new Contact(); Y2C.Name = "2"; Y2C.Type = Contact.ContactType.OutputPin; var Y2CI = new Contact(); Y2CI.Name = "2"; Y2CI.Type = Contact.ContactType.OutputPin; Y2CI.IsInverted = true; var X3 = new Contact(); X3.Name = "3"; var X4 = new Contact(); X4.Name = "4"; #endregion Declare Components #region Build Circuit Rung1.Add(Y1); Rung1.InsertBefore(X2I, Y1); Rung1.Add(X1); Rung1.InsertUnder(Y1C, X1); Rung1.InsertAfter(Y2CI, X1); Rung1.InsertBefore(new OSR(), Y2CI); TestDiagram.Add(Rung1); Rung2.Add(Y2); Rung2.InsertBefore(X1I, Y2); Rung2.Add(X2); Rung2.InsertUnder(Y2C, X2); Rung2.InsertAfter(Y1CI, X2); Rung2.InsertBefore(new OSR(), Y1CI); TestDiagram.InsertUnder(Rung2, Rung1); Rung3.Add(new Coil()); Rung3.Add(new Coil()); Rung3.Add(new Coil()); Rung3.Add(new Contact()); TestDiagram.InsertUnder(Rung3, Rung2); ELF elf = new ELF(); elf.Name = "test"; elf.Code = "int a = 10;"; Rung4.Add(elf); Rung4.Add(X3); Rung4.InsertAfter(X4, X3); Rung4.InsertUnder(new Contact(), X3); Rung4.InsertUnder(new Contact(), X4); TestDiagram.InsertUnder(Rung4, Rung3); #endregion Build Circuit LDFile.DiagramWriter.SaveDiagram(TestDiagram, "test.xml"); }
public void BasicTest() { //| x1 y2 x2 y1 | //|--+--[ ]--[OSR]--[/]--+--[/]----( )--| //| | y1 | | //| +--[ ]--------------+ | //| | //| x2 y1 x1 y2 | //|--+--[ ]--[OSR]--[/]--+--[/]----( )--| //| | y2 | | //| +--[ ]--------------+ | Diagram TestDiagram = new Diagram(); TestDiagram.MasterRelay = true; #region Declare Components Rung Rung1 = new Rung(); Rung Rung2 = new Rung(); var Y1 = new Coil(); Y1.Name = "1"; var Y2 = new Coil(); Y2.Name = "2"; var X1 = new Contact(); X1.Name = "1"; var X1I = new Contact(); X1I.Name = "1"; X1I.IsInverted = true; var X2 = new Contact(); X2.Name = "2"; var X2I = new Contact(); X2I.Name = "2"; X2I.IsInverted = true; var Y1C = new Contact(); Y1C.Name = "1"; Y1C.Type = Contact.ContactType.OutputPin; var Y1CI = new Contact(); Y1CI.Name = "1"; Y1CI.Type = Contact.ContactType.OutputPin; Y1CI.IsInverted = true; var Y2C = new Contact(); Y2C.Name = "2"; Y2C.Type = Contact.ContactType.OutputPin; var Y2CI = new Contact(); Y2CI.Name = "2"; Y2CI.Type = Contact.ContactType.OutputPin; Y2CI.IsInverted = true; #endregion Declare Components #region Build Circuit Rung1.Add(Y1); Rung1.InsertBefore(X2I, Y1); Rung1.Add(X1); Rung1.InsertUnder(Y1C, X1); Rung1.InsertAfter(Y2CI, X1); Rung1.InsertBefore(new OSR(), Y2CI); TestDiagram.Add(Rung1); Rung2.Add(Y2); Rung2.InsertBefore(X1I, Y2); Rung2.Add(X2); Rung2.InsertUnder(Y2C, X2); Rung2.InsertAfter(Y1CI, X2); Rung2.InsertBefore(new OSR(), Y1CI); TestDiagram.InsertUnder(Rung2, Rung1); #endregion Build Circuit Trace.WriteLine(""); #region Cycle 1 Trace.WriteLine("Cycle 1", "Unit Test"); Trace.Indent(); TestDiagram.Execute(); Assert.IsFalse(X1.InternalState, "X1 Fail"); Assert.IsFalse(X2.InternalState, "X2 Fail"); Assert.IsFalse(X1I.InternalState, "X1I Fail"); Assert.IsFalse(X2I.InternalState, "X2I Fail"); Assert.IsFalse(Y1.InternalState, "Y1 Fail"); Assert.IsFalse(Y2.InternalState, "Y2 Fail"); Assert.IsFalse(Y1C.InternalState, "Y1C Fail"); Assert.IsFalse(Y2C.InternalState, "Y2C Fail"); Assert.IsFalse(Y1CI.InternalState, "Y1CI Fail"); Assert.IsFalse(Y2CI.InternalState, "Y2CI Fail"); Trace.Unindent(); #endregion Cycle 1 #region Cycle 2 Trace.WriteLine("Cycle 2", "Unit Test"); Trace.Indent(); X1.IsClosed = true; TestDiagram.Execute(); Assert.IsTrue(X1.InternalState, "X1 Fail"); Assert.IsFalse(X2.InternalState, "X2 Fail"); Assert.IsFalse(X1I.InternalState, "X1I Fail"); Assert.IsTrue(X2I.InternalState, "X2I Fail"); Assert.IsTrue(Y1.InternalState, "Y1 Fail"); Assert.IsFalse(Y2.InternalState, "Y2 Fail"); Assert.IsFalse(Y1C.InternalState, "Y1C Fail"); Assert.IsFalse(Y2C.InternalState, "Y2C Fail"); Assert.IsFalse(Y1CI.InternalState, "Y1CI Fail"); Assert.IsTrue(Y2CI.InternalState, "Y2CI Fail"); Trace.Unindent(); #endregion Cycle 2 #region Cycle 3 Trace.WriteLine("Cycle 3", "Unit Test"); Trace.Indent(); X1.IsClosed = false; TestDiagram.Execute(); Assert.IsFalse(X1.InternalState, "X1 Fail"); Assert.IsFalse(X2.InternalState, "X2 Fail"); Assert.IsFalse(X1I.InternalState, "X1I Fail"); Assert.IsTrue(X2I.InternalState, "X2I Fail"); Assert.IsTrue(Y1.InternalState, "Y1 Fail"); Assert.IsFalse(Y2.InternalState, "Y2 Fail"); Assert.IsTrue(Y1C.InternalState, "Y1C Fail"); Assert.IsFalse(Y2C.InternalState, "Y2C Fail"); Assert.IsFalse(Y1CI.InternalState, "Y1CI Fail"); Assert.IsFalse(Y2CI.InternalState, "Y2CI Fail"); Trace.Unindent(); #endregion Cycle 3 #region Cycle 4 Trace.WriteLine("Cycle 4", "Unit Test"); Trace.Indent(); X2.IsClosed = true; TestDiagram.Execute(); Assert.IsFalse(X1.InternalState, "X1 Fail"); Assert.IsTrue(X2.InternalState, "X2 Fail"); Assert.IsTrue(X1I.InternalState, "X1I Fail"); Assert.IsFalse(X2I.InternalState, "X2I Fail"); Assert.IsFalse(Y1.InternalState, "Y1 Fail"); Assert.IsTrue(Y2.InternalState, "Y2 Fail"); Assert.IsTrue(Y1C.InternalState, "Y1C Fail"); Assert.IsFalse(Y2C.InternalState, "Y2C Fail"); Assert.IsTrue(Y1CI.InternalState, "Y1CI Fail"); Assert.IsFalse(Y2CI.InternalState, "Y2CI Fail"); Trace.Unindent(); #endregion Cycle 4 #region Cycle 5 Trace.WriteLine("Cycle 5", "Unit Test"); Trace.Indent(); X2.IsClosed = false; TestDiagram.Execute(); Assert.IsFalse(X1.InternalState, "X1 Fail"); Assert.IsFalse(X2.InternalState, "X2 Fail"); Assert.IsTrue(X1I.InternalState, "X1I Fail"); Assert.IsFalse(X2I.InternalState, "X2I Fail"); Assert.IsFalse(Y1.InternalState, "Y1 Fail"); Assert.IsTrue(Y2.InternalState, "Y2 Fail"); Assert.IsFalse(Y1C.InternalState, "Y1C Fail"); Assert.IsTrue(Y2C.InternalState, "Y2C Fail"); Assert.IsFalse(Y1CI.InternalState, "Y1CI Fail"); Assert.IsFalse(Y2CI.InternalState, "Y2CI Fail"); Trace.Unindent(); #endregion Cycle 5 #region Cycle 6 Trace.WriteLine("Cycle 6", "Unit Test"); Trace.Indent(); X1.IsClosed = true; TestDiagram.Execute(); Assert.IsTrue(X1.InternalState, "X1 Fail"); Assert.IsFalse(X2.InternalState, "X2 Fail"); Assert.IsFalse(X1I.InternalState, "X1I Fail"); Assert.IsFalse(X2I.InternalState, "X2I Fail"); Assert.IsFalse(Y1.InternalState, "Y1 Fail"); Assert.IsFalse(Y2.InternalState, "Y2 Fail"); Assert.IsFalse(Y1C.InternalState, "Y1C Fail"); Assert.IsTrue(Y2C.InternalState, "Y2C Fail"); Assert.IsFalse(Y1CI.InternalState, "Y1CI Fail"); Assert.IsFalse(Y2CI.InternalState, "Y2CI Fail"); Trace.Unindent(); #endregion Cycle 6 #region Cycle 7 Trace.WriteLine("Cycle 7", "Unit Test"); Trace.Indent(); X1.IsClosed = false; TestDiagram.Execute(); Assert.IsFalse(X1.InternalState, "X1 Fail"); Assert.IsFalse(X2.InternalState, "X2 Fail"); Assert.IsFalse(X1I.InternalState, "X1I Fail"); Assert.IsFalse(X2I.InternalState, "X2I Fail"); Assert.IsFalse(Y1.InternalState, "Y1 Fail"); Assert.IsFalse(Y2.InternalState, "Y2 Fail"); Assert.IsFalse(Y1C.InternalState, "Y1C Fail"); Assert.IsFalse(Y2C.InternalState, "Y2C Fail"); Assert.IsFalse(Y1CI.InternalState, "Y1CI Fail"); Assert.IsFalse(Y2CI.InternalState, "Y2CI Fail"); Trace.Unindent(); #endregion Cycle 7 }
/// <summary> /// Read rungs from node list /// </summary> /// <param name="diagram"></param> /// <param name="rungs"></param> internal static void ReadRungs(XmlNodeList rungs, Diagram diagram) { foreach (XmlNode xRung in rungs) { Trace.WriteLine("Rung Started"); Trace.Indent(); Rung rung = new Rung(); rung.Comment = xRung.Attributes["Comment"].Value; List <ComponentBase> components = new List <ComponentBase>(); List <List <string> > dRung = new List <List <string> >();//Decomposed stringRung #region Decompose Loop Trace.WriteLine("Starting decomposition", "Rung"); Trace.Indent(); string sRung = xRung.InnerXml; //Rung as string Stack <bool> SerialMode = new Stack <bool>(); SerialMode.Push(true); dRung.Add(new List <string>()); //Decompose loop for (int pos = 0, CurrLevel = 0; pos < sRung.Length; pos++) { if (sRung[pos] == '<') { if (sRung.Substring(pos + 1, 6) == "Serial") { dRung[CurrLevel].Add("SS" + ((CurrLevel + 2 > dRung.Count) ? 0 : dRung[CurrLevel + 1].Count)); pos += 7; SerialMode.Push(true); CurrLevel++; if (CurrLevel + 1 > dRung.Count) { dRung.Add(new List <string>()); } } else if (sRung.Substring(pos + 1, 8) == "Parallel") { dRung[CurrLevel].Add("SP" + ((CurrLevel + 2 > dRung.Count) ? 0 : dRung[CurrLevel + 1].Count)); pos += 9; SerialMode.Push(false); CurrLevel++; if (CurrLevel + 1 > dRung.Count) { dRung.Add(new List <string>()); } } else if (sRung[pos + 1] == '/') { int lenght = 0; while (sRung[pos + lenght] != '>') { lenght++; } dRung[CurrLevel].Add((sRung.Substring(pos, lenght + 1).Contains('S')) ? "ES" : "EP"); pos += lenght; SerialMode.Pop(); CurrLevel--; } else { int lenght = 0; while (sRung[pos + lenght] != '/' && sRung[pos + lenght + 1] != '>') { lenght++; } components.Add(CreateComponent(sRung.Substring(pos, ++lenght + 1))); dRung[CurrLevel].Add(((components.Count == 1) ? "I" : "N") + ((SerialMode.Peek()) ? "S" : "P") + (components.Count - 1).ToString()); pos += lenght; } } } dRung[0].Add("ES"); Trace.WriteLine("Decomposition ended, rung deepness " + dRung.Count.ToString() + " levels", "Rung"); Trace.Unindent(); #endregion Decompose Loop if (xRung.Attributes["Count"].Value.ToInt() != components.Count) { throw new Exception("Corrupted File. Wrong number of components in a rung"); } #region Rebuild Loop Trace.WriteLine("Starting Rung Rebuild", "Rebuild"); Trace.Indent(); int lastComponent = 0; rung.Add(components[0]); for (int level = 0; level < dRung.Count; level++) { for (int pos = 0; pos < dRung[level].Count; pos++) { switch (dRung[level][pos][0]) { #region Hit Sub-Circuit case 'S': int m = pos; while (dRung[level][m][0] != 'E') { m++; } if (m > pos + 1) { int slA = level, //Selected level A spA = pos; //Selected Position A while (dRung[slA][spA][0] == 'S') { spA = dRung[slA][spA].Substring(2).ToInt(); slA++; } int slB = level, //Selected level B spB = pos + 1; //Selected Position B while (dRung[slB][spB][0] == 'S') { spB = dRung[slB][spB].Substring(2).ToInt(); slB++; } Trace.WriteLine("Component pair -> " + dRung[slA][spA].Substring(2) + " | " + dRung[slB][spB].Substring(2), "Rebuild"); //if (dRung[slA][spA][0] == 'N') //{ // if (dRung[level][m][1] == 'S') rung.InsertAfter(components[dRung[slA][spA].Substring(2).ToInt()], components[lastComponent]); // else rung.InsertUnder(components[dRung[slA][spA].Substring(2).ToInt()], components[lastComponent]); // dRung[slA][spA] = dRung[slA][spA].Replace("N", "I"); // Trace.WriteLine("Component A inserted ", "Rebuild"); //} lastComponent = dRung[slA][spA].Substring(2).ToInt(); if (dRung[slB][spB][0] == 'N') { if (dRung[level][m][1] == 'S') { rung.InsertAfter(components[dRung[slB][spB].Substring(2).ToInt()], components[lastComponent]); } else { rung.InsertUnder(components[dRung[slB][spB].Substring(2).ToInt()], components[lastComponent]); } dRung[slB][spB] = dRung[slB][spB].Replace("N", "I"); Trace.WriteLine("Component " + dRung[slB][spB].Substring(2) + " inserted ", "Rebuild"); } lastComponent = dRung[slB][spB].Substring(2).ToInt(); } else { int sl = level, //Selected level sp = pos; //Selected Position while (dRung[sl][sp][0] == 'S') { sp = dRung[sl][sp].Substring(2).ToInt(); sl++; } if (dRung[sl][sp][0] == 'N') { if (dRung[level][m][1] == 'S') { rung.InsertAfter(components[dRung[sl][sp].Substring(2).ToInt()], components[lastComponent]); } else { rung.InsertUnder(components[dRung[sl][sp].Substring(2).ToInt()], components[lastComponent]); } dRung[sl][sp] = dRung[sl][sp].Replace("N", "I"); Trace.WriteLine("Component " + dRung[sl][sp].Substring(2) + " inserted ", "Rebuild"); } } break; #endregion Hit Sub-Circuit #region Hit End of Sub-Circuit case 'E': //End Sub-Circuit Trace.WriteLine("End sub-circuit", "Rebuild"); break; #endregion Hit End of Sub-Circuit #region Hit Not Inserted Component case 'N': //New component if (dRung[level][pos][1] == 'S') { rung.InsertAfter(components[dRung[level][pos].Substring(2).ToInt()], components[lastComponent]); } else { rung.InsertUnder(components[dRung[level][pos].Substring(2).ToInt()], components[lastComponent]); } dRung[level][pos] = dRung[level][pos].Replace("N", "I"); lastComponent = dRung[level][pos].Substring(2).ToInt(); Trace.WriteLine("Component " + dRung[level][pos].Substring(2) + " inserted", "Rebuild"); break; #endregion Hit Not Inserted Component #region Hit Inserted Component case 'I': //Inserted Component lastComponent = dRung[level][pos].Substring(2).ToInt(); Trace.WriteLine("Last component index -> " + lastComponent, "Rebuild"); break; #endregion Hit Inserted Component } } } Trace.Unindent(); Trace.WriteLine("Rung Rebuild Ended"); #endregion Rebuild Loop diagram.Add(rung); Trace.Unindent(); Trace.WriteLine("Rung Ended"); } }
public void Compile() { //| x1 y2 x2 y1 | //|--+--[ ]--[OSR]--[/]--+--[/]----( )--| //| | y1 | | //| +--[ ]--------------+ | //| | //| x2 y1 x1 y2 | //|--+--[ ]--[OSR]--[/]--+--[/]----( )--| //| | y2 | | //| +--[ ]--------------+ | Diagram TestDiagram = new Diagram(); TestDiagram.MasterRelay = true; #region Declare Components Rung Rung1 = new Rung(); Rung Rung2 = new Rung(); var Y1 = new Coil(); Y1.Name = "1"; var Y2 = new Coil(); Y2.Name = "2"; var X1 = new Contact(); X1.Name = "1"; var X1I = new Contact(); X1I.Name = "1"; X1I.IsInverted = true; var X2 = new Contact(); X2.Name = "2"; var X2I = new Contact(); X2I.Name = "2"; X2I.IsInverted = true; var Y1C = new Contact(); Y1C.Name = "1"; Y1C.Type = Contact.ContactType.OutputPin; var Y1CI = new Contact(); Y1CI.Name = "1"; Y1CI.Type = Contact.ContactType.OutputPin; Y1CI.IsInverted = true; var Y2C = new Contact(); Y2C.Name = "2"; Y2C.Type = Contact.ContactType.OutputPin; var Y2CI = new Contact(); Y2CI.Name = "2"; Y2CI.Type = Contact.ContactType.OutputPin; Y2CI.IsInverted = true; #endregion Declare Components #region Build Circuit Rung1.Add(Y1); Rung1.InsertBefore(X2I, Y1); Rung1.Add(X1); Rung1.InsertUnder(Y1C, X1); Rung1.InsertAfter(Y2CI, X1); Rung1.InsertBefore(new OSR(), Y2CI); TestDiagram.Add(Rung1); Rung2.Add(Y2); //ELF elf = new ELF(); //elf.Name = "test"; //elf.Code = "int a = 10;"; //Rung2.Add(elf); Rung2.InsertBefore(X1I, Y2); Rung2.Add(X2); Rung2.InsertUnder(Y2C, X2); Rung2.InsertAfter(Y1CI, X2); Rung2.InsertBefore(new OSR(), Y1CI); TestDiagram.InsertUnder(Rung2, Rung1); #endregion Build Circuit TestDiagram.RefreshPins(); TestDiagram.Pins[0].Pin = "3"; TestDiagram.Pins[1].Pin = "9"; TestDiagram.Pins[2].Pin = "8"; TestDiagram.Pins[3].Pin = "4"; Console.WriteLine(); Console.Write(Compiler.DiagramCompiler.CompileDiagram(TestDiagram)); }