예제 #1
0
        /// <summary>
        /// Create a new gate.
        /// </summary>
        /// <param name="gateName"></param>
        /// <param name="bounds"></param>
        /// <param name="orientation"></param>
        /// <param name="type"></param>
        /// <returns></returns>
        private static Gate createGate(string gateName, Rect bounds, double orientation, ShapeType type)
        {
            Gate tempGate = null;

            if (type == LogicDomain.AND)
            {
                tempGate = new AND(gateName, bounds, orientation);
            }
            else if (type == LogicDomain.NAND)
            {
                tempGate = new NAND(gateName, bounds, orientation);
            }
            else if (type == LogicDomain.OR)
            {
                tempGate = new OR(gateName, bounds, orientation);
            }
            else if (type == LogicDomain.NOR)
            {
                tempGate = new NOR(gateName, bounds, orientation);
            }
            else if (type == LogicDomain.XOR)
            {
                tempGate = new XOR(gateName, bounds, orientation);
            }
            else if (type == LogicDomain.XNOR)
            {
                tempGate = new XNOR(gateName, bounds, orientation);
            }
            else if (type == LogicDomain.NOT)
            {
                tempGate = new NOT(gateName, bounds, orientation);
            }
            else if (type == LogicDomain.NOTBUBBLE)
            {
                tempGate = new NOTBUBBLE(gateName, bounds, orientation);
            }
            else
            {
                throw new Exception("type unrecognized: " + type.Name);
            }
            return(tempGate);
        }
예제 #2
0
        /// <summary>
        /// Constructs a Circuit given a Dictionary of all the gates,
        /// List of all outputs, and List of all inputs
        /// </summary>
        /// <param name="dictionary"></param>
        /// <param name="outputs"></param>
        /// <param name="inputs"></param>
        public Circuit(Dictionary <string, Data.Pair <Sketch.Shape, Dictionary <string, int> > > dictionary,
                       Dictionary <string, Data.Pair <Sketch.Shape, Data.Pair <string, int> > > outputs, Dictionary <string, Sketch.Shape> inputs)
        {
            if (debug)
            {
                string gates = "Gates: ";
                foreach (string gate in dictionary.Keys)
                {
                    gates += gate + " ";
                }
                string instring = "Inputs: ";
                foreach (string inp in inputs.Keys)
                {
                    instring += inp + " ";
                }
                string outstring = "Outputs: ";
                foreach (string outp in outputs.Keys)
                {
                    outstring += outp + " ";
                }
                Console.WriteLine(gates);
                Console.WriteLine(instring);
                Console.WriteLine(outstring);
            }

            globalInputs    = new List <INPUT>();
            myGates         = new List <Gate>();
            globalOutputs   = new List <OUTPUT>();
            namesToElements = new Dictionary <string, CircuitElement>();
            outputValues    = new Dictionary <string, int>();
            isOscillating   = false;

            // Builds global inputs
            foreach (string inputName in inputs.Keys)
            {
                INPUT input = new INPUT(inputName, inputs[inputName].Bounds, inputs[inputName].Orientation);
                namesToElements.Add(inputName, input);
                globalInputs.Add(input);
            }

            // Builds logic gates within the circuit
            foreach (string gateName in dictionary.Keys)
            {
                Gate      tempGate    = null;
                Rect      bounds      = dictionary[gateName].A.Bounds;
                double    orientation = dictionary[gateName].A.Orientation;
                ShapeType type        = dictionary[gateName].A.Type;

                if (type == LogicDomain.AND)
                {
                    tempGate = new AND(gateName, bounds, orientation);
                }
                else if (type == LogicDomain.NAND)
                {
                    tempGate = new NAND(gateName, bounds, orientation);
                }
                else if (type == LogicDomain.OR)
                {
                    tempGate = new OR(gateName, bounds, orientation);
                }
                else if (type == LogicDomain.NOR)
                {
                    tempGate = new NOR(gateName, bounds, orientation);
                }
                else if (type == LogicDomain.XOR)
                {
                    tempGate = new XOR(gateName, bounds, orientation);
                }
                else if (type == LogicDomain.XNOR)
                {
                    tempGate = new XNOR(gateName, bounds, orientation);
                }
                else if (type == LogicDomain.NOT)
                {
                    tempGate = new NOT(gateName, bounds, orientation);
                }
                else if (type == LogicDomain.NOTBUBBLE)
                {
                    tempGate = new NOTBUBBLE(gateName, bounds, orientation);
                }
                else if (type == LogicDomain.SUBCIRCUIT)
                {
                    tempGate = new SubCircuit(gateName, bounds, dictionary[gateName].A, orientation);
                }
                else if (type == LogicDomain.FULLADDER)
                {
                    tempGate = new Adder(gateName, bounds, orientation);
                }
                else if (type == LogicDomain.SUBTRACTOR)
                {
                    tempGate = new Subtractor(gateName, bounds, orientation);
                }

                if (tempGate != null)
                {
                    namesToElements.Add(gateName, tempGate);
                    myGates.Add(tempGate);
                }
            }

            // Connect all CircuitElements
            foreach (string gateName in dictionary.Keys)
            {
                foreach (string inputName in dictionary[gateName].B.Keys)
                {
                    namesToElements[gateName].addChild(namesToElements[inputName], dictionary[gateName].B[inputName]);
                }
            }

            //builds and connects all global Outputs
            foreach (string gate in outputs.Keys)
            {
                OUTPUT output = new OUTPUT(gate, outputs[gate].A.Bounds, namesToElements[outputs[gate].B.A]);
                output.addChild(namesToElements[outputs[gate].B.A], outputs[gate].B.B);
                namesToElements.Add(gate, output);
                globalOutputs.Add(output);
            }
            numInputs = globalInputs.Count;

            //This part of the code (until the end of the constructor) recognizes whether if the drawn diagram contains more than one circuit.
            List <KeyValuePair <OUTPUT, List <INPUT> > > tempList = new List <KeyValuePair <OUTPUT, List <INPUT> > >();

            circuitList = new List <List <OUTPUT> >();
            foreach (OUTPUT output in globalOutputs)
            {
                List <INPUT> lis = findGlobalInputs(output);
                KeyValuePair <OUTPUT, List <INPUT> > k = new KeyValuePair <OUTPUT, List <INPUT> >(output, lis);
                tempList.Add(k);
            }
            for (int i = 0; i < tempList.Count; i++)
            {
                List <OUTPUT> outputList = new List <OUTPUT>();
                outputList.Add(tempList[i].Key);
                for (int j = 0; j < tempList.Count; j++)
                {
                    if (i != j)
                    {
                        bool intersect = Check(tempList[i].Value, tempList[j].Value);
                        if (intersect)
                        {
                            outputList.Add(tempList[j].Key);
                        }
                    }
                }

                bool newCircuit = true;
                foreach (List <OUTPUT> subCircuit in circuitList)
                {
                    if (Check(subCircuit, outputList))
                    {
                        newCircuit = false;
                    }
                }
                if (newCircuit)
                {
                    circuitList.Add(outputList);
                }
            }
        }