#include "Simulation.h" #include #include bool Simulation::parseCircuit(string fileName) { ifstream in; in.open(fileName + ".txt"); if (in.fail()) { cerr << endl << fileName << ".txt could not be opened :("; return false; } string tmpString, tmpType; int tmp1, tmp2, tmp3; Wire *tmpWire; Gate *tmpGate; // get rid of first line getline(in, tmpString); while (!in.eof()) { in >> tmpType; in >> tmpString; in >> tmp1; if (tmpType == "INPUT" || tmpType == "OUTPUT") { tmpWire = findWire(tmp1); tmpWire->convertToIO(tmpString); } else if (tmpType == "NOT") { in >> tmp2; tmpGate = new NotGate(getDelay(tmpString), findWire(tmp1), findWire(tmp2)); // push gate onto Simulation gates vector gates.push_back(tmpGate); // also push gate onto input wire's gate vector findWire(tmp1)->addGate(tmpGate); } else if (tmpType == "AND") { in >> tmp2; in >> tmp3; tmpGate = new AndGate(getDelay(tmpString), findWire(tmp1), findWire(tmp2), findWire(tmp3)); gates.push_back(tmpGate); findWire(tmp1)->addGate(tmpGate); findWire(tmp2)->addGate(tmpGate); } else if (tmpType == "NAND") { in >> tmp2; in >> tmp3; tmpGate = new NandGate(getDelay(tmpString), findWire(tmp1), findWire(tmp2), findWire(tmp3)); gates.push_back(tmpGate); findWire(tmp1)->addGate(tmpGate); findWire(tmp2)->addGate(tmpGate); } else if (tmpType == "OR") { in >> tmp2; in >> tmp3; tmpGate = new OrGate(getDelay(tmpString), findWire(tmp1), findWire(tmp2), findWire(tmp3)); gates.push_back(tmpGate); findWire(tmp1)->addGate(tmpGate); findWire(tmp2)->addGate(tmpGate); } else if (tmpType == "XOR") { in >> tmp2; in >> tmp3; tmpGate = new XorGate(getDelay(tmpString), findWire(tmp1), findWire(tmp2), findWire(tmp3)); gates.push_back(tmpGate); findWire(tmp1)->addGate(tmpGate); findWire(tmp2)->addGate(tmpGate); } else if (tmpType == "NOR") { in >> tmp2; in >> tmp3; tmpGate = new NorGate(getDelay(tmpString), findWire(tmp1), findWire(tmp2), findWire(tmp3)); gates.push_back(tmpGate); findWire(tmp1)->addGate(tmpGate); findWire(tmp2)->addGate(tmpGate); } else if (tmpType == "XNOR") { in >> tmp2; in >> tmp3; tmpGate = new XnorGate(getDelay(tmpString), findWire(tmp1), findWire(tmp2), findWire(tmp3)); gates.push_back(tmpGate); findWire(tmp1)->addGate(tmpGate); findWire(tmp2)->addGate(tmpGate); } } return true; } bool Simulation::parseVector(string fileName) { ifstream in; in.open(fileName + "_v.txt"); if (in.fail()) { cerr << endl << fileName << "_v.txt could not be opened :("; return false; } string tmpString; int timeInt, valInt; Wire *tmpWire = nullptr; // get rid of first line getline(in, tmpString); while(!in.eof()) { in >> tmpString; in >> tmpString; in >> timeInt; in >> valInt; for(auto i = wires.begin(); i != wires.end(); ++i) { if((**i).getName() == tmpString) { tmpWire = *i; } } e.push(Event(eventNum++, valInt, timeInt, tmpWire)); } } void Simulation::simulate() { // loop through event queue while(!e.empty()) { bool doesChange; Wire * output; Event tmpEvent = e.top(); e.pop(); output = tmpEvent.getOutput(); doesChange = output->setValue(tmpEvent.getValue(), tmpEvent.getTime()); // if the wire value changes, evaluate gates if(doesChange) { Gate * tmpGate; Event gateEvent; int index = 0; while(true){ tmpGate = output->getGate(index++); if (tmpGate != nullptr) { gateEvent = tmpGate->evaluate(tmpEvent.getTime()); gateEvent.setNum(eventNum++); e.push(gateEvent); } else { break; } } } } } void Simulation::print() { int lastTime = 0; int tmpTime = 0; // iterate through wires, finding wire with last event time for(auto i = wires.begin(); i != wires.end(); ++i) { if((**i).getLast() > lastTime) { lastTime = (**i).getLast(); } } // now iterate through wires, printing each of them for(auto i = wires.begin(); i != wires.end(); ++i) { (**i).setLast(lastTime); cout << **i; } int t = 0; cout << setw(10) << "TIME"; while(t <= 60 && t <= lastTime) { cout << setw(5) << t; t += 5; } } Wire * Simulation::findWire(int n) { for (auto i = wires.begin(); i != wires.end(); ++i) { if (n == (**i).getNumber()) return *i; } // if wire does not exist, create it, instantiating as an intermediary wire Wire * tmpWire = new Wire(n, false); wires.push_back(tmpWire); return tmpWire; } int Simulation::getDelay(string d) { d.resize(d.size() - 2); return atoi(d.c_str()); }