public void TestXOrGateNoInputA() { List<SimulatedComponent> components = new List<SimulatedComponent>(); XOrGate og = new XOrGate(); Connector inputConnectorB = new Connector(); og.ConnectInputB(inputConnectorB); Connector outputConnector = new Connector(); og.ConnectOutput(outputConnector); components.Add(og); bool currSignal1 = false; bool currSignal2 = false; for (int x = 1; x < 30; x++) { inputConnectorB.SendSignal(currSignal2); foreach (SimulatedComponent sc in components) { sc.Tick(); } Console.WriteLine("Signal1[" + currSignal1.ToString() + "] Signal2[" + currSignal2.ToString() + "] = Result[" + outputConnector.HasSignal().ToString() + "]"); Assert.IsTrue(outputConnector.HasSignal() == currSignal2); currSignal1 = !currSignal1; if (currSignal1 == false) { currSignal2 = !currSignal2; } } }
public void TestFullAdderDiscreets() { List<SimulatedComponent> components = new List<SimulatedComponent>(); // bit 1 stage. XOrGate xogResultStage = new XOrGate(); AndGate agResultStage1 = new AndGate(); XOrGate xogInputStage1 = new XOrGate(); AndGate agInputStage1 = new AndGate(); OrGate carryOut1 = new OrGate(); Connector inputA1 = new Connector(); Connector inputB1 = new Connector(); Connector outputCarryOut1 = new Connector(); Connector outputSumOut1 = new Connector(); Connector internalSumToB1 = new Connector(); Connector internalCarry1a = new Connector(); Connector internalCarry1b = new Connector(); xogInputStage1.ConnectInputB(internalSumToB1); xogInputStage1.ConnectOutput(outputSumOut1); agInputStage1.ConnectInputB(internalSumToB1); agInputStage1.ConnectOutput(internalCarry1a); xogResultStage.ConnectInputA(inputA1); xogResultStage.ConnectInputB(inputB1); xogResultStage.ConnectOutput(internalSumToB1); agResultStage1.ConnectInputA(inputA1); agResultStage1.ConnectInputB(inputB1); agResultStage1.ConnectOutput(internalCarry1b); carryOut1.ConnectInputA(internalCarry1a); carryOut1.ConnectInputB(internalCarry1b); carryOut1.ConnectOutput(outputCarryOut1); components.Add(xogResultStage); components.Add(agResultStage1); components.Add(xogInputStage1); components.Add(agInputStage1); components.Add(carryOut1); // bit 2 stage. XOrGate xogResultStage2 = new XOrGate(); AndGate agResultStage2 = new AndGate(); XOrGate xogInputStage2 = new XOrGate(); AndGate agInputStage2 = new AndGate(); OrGate carryOut2 = new OrGate(); Connector inputA2 = new Connector(); Connector inputB2 = new Connector(); Connector outputCarryOut2 = new Connector(); Connector outputSumOut2 = new Connector(); Connector internalSumToB2 = new Connector(); Connector internalCarry2a = new Connector(); Connector internalCarry2b = new Connector(); xogInputStage2.ConnectInputA(outputCarryOut1); xogInputStage2.ConnectInputB(internalSumToB2); xogInputStage2.ConnectOutput(outputSumOut2); agInputStage2.ConnectInputA(outputCarryOut1); agInputStage2.ConnectInputB(internalSumToB2); agInputStage2.ConnectOutput(internalCarry2a); xogResultStage2.ConnectInputA(inputA2); xogResultStage2.ConnectInputB(inputB2); xogResultStage2.ConnectOutput(internalSumToB2); agResultStage2.ConnectInputA(inputA2); agResultStage2.ConnectInputB(inputB2); agResultStage2.ConnectOutput(internalCarry2b); carryOut2.ConnectInputA(internalCarry2a); carryOut2.ConnectInputB(internalCarry2b); carryOut2.ConnectOutput(outputCarryOut2); components.Add(xogResultStage2); components.Add(agResultStage2); components.Add(xogInputStage2); components.Add(agInputStage2); components.Add(carryOut2); // bit 3 stage. XOrGate xogResultStage3 = new XOrGate(); AndGate agResultStage3 = new AndGate(); XOrGate xogInputStage3 = new XOrGate(); AndGate agInputStage3 = new AndGate(); OrGate carryOut3 = new OrGate(); Connector inputA3 = new Connector(); Connector inputB3 = new Connector(); Connector outputCarryOut3 = new Connector(); Connector outputSumOut3 = new Connector(); Connector internalSumToB3 = new Connector(); Connector internalCarry3a = new Connector(); Connector internalCarry3b = new Connector(); xogInputStage3.ConnectInputA(outputCarryOut2); xogInputStage3.ConnectInputB(internalSumToB3); xogInputStage3.ConnectOutput(outputSumOut3); agInputStage3.ConnectInputA(outputCarryOut2); agInputStage3.ConnectInputB(internalSumToB3); agInputStage3.ConnectOutput(internalCarry3a); xogResultStage3.ConnectInputA(inputA3); xogResultStage3.ConnectInputB(inputB3); xogResultStage3.ConnectOutput(internalSumToB3); agResultStage3.ConnectInputA(inputA3); agResultStage3.ConnectInputB(inputB3); agResultStage3.ConnectOutput(internalCarry3b); carryOut3.ConnectInputA(internalCarry3a); carryOut3.ConnectInputB(internalCarry3b); carryOut3.ConnectOutput(outputCarryOut3); components.Add(xogResultStage3); components.Add(agResultStage3); components.Add(xogInputStage3); components.Add(agInputStage3); components.Add(carryOut3); for(int y = 0; y < 8; y++) for (int x = 0; x < 8; x ++) { if ((y & 1) != 0) { inputB1.SendSignal(true); } else { inputB1.SendSignal(false); } if ((y & 2) != 0) { inputB2.SendSignal(true); } else { inputB2.SendSignal(false); } if ((y & 4) != 0) { inputB3.SendSignal(true); } else { inputB3.SendSignal(false); } if ((x & 1) != 0) { inputA1.SendSignal(true); } else { inputA1.SendSignal(false); } if ((x & 2) != 0) { inputA2.SendSignal(true); } else { inputA2.SendSignal(false); } if ((x & 4) != 0) { inputA3.SendSignal(true); } else { inputA3.SendSignal(false); } for (int z = 0; z < 3; z++) { foreach (SimulatedComponent sc in components) { sc.Tick(); } } int result = 0; if (outputCarryOut3.HasSignal()) { result |= 8; } if (outputSumOut3.HasSignal()) { result |= 4; } if (outputSumOut2.HasSignal()) { result |= 2; } if (outputSumOut1.HasSignal()) { result |= 1; } Assert.AreEqual(x + y, result); Console.WriteLine("x[" + x.ToString() + "] y[" + y.ToString() + "] = Result[" + result.ToString() + "]"); } }