public Memory(int iAddressSize, int iWordSize)
{
AddressSize = iAddressSize;
WordSize = iWordSize;
int registerNum = (int)Math.Pow(2.0, AddressSize);
Input = new WireSet(WordSize);
Output = new WireSet(WordSize);
Address = new WireSet(AddressSize);
Load = new Wire();
WireSet newLoad = new WireSet(1);
newLoad[0].ConnectInput(Load);
demux = new BitwiseMultiwayDemux(1, AddressSize);
mux = new BitwiseMultiwayMux(WordSize, AddressSize);
registers = new MultiBitRegister[registerNum];
WireSet AddressMirror = new WireSet(AddressSize);
for (int j = 0; j < AddressSize; j++)
{
AddressMirror[j].ConnectInput(Address[AddressSize - 1 - j]);
}
demux.ConnectControl(AddressMirror);
demux.ConnectInput(newLoad);
for (int i = 0; i < registerNum; i++)
{
registers[i] = new MultiBitRegister(WordSize);
registers[i].ConnectInput(Input);
registers[i].Load.ConnectInput(demux.Outputs[i][0]);
mux.ConnectInput(i, registers[i].Output);
}
mux.ConnectControl(Address);
Output.ConnectInput(mux.Output);
}
// creating counter by using one multibit register and 1 full addr to increment by 1
// using mux to decide if to increment or to get new input
public Counter(int iSize)
{
Size = iSize;
Input = new WireSet(Size);
Output = new WireSet(Size);
Load = new Wire();
val = new WireSet(Size);
val.SetValue(1);
mux_op = new BitwiseMux(Size);
adder = new MultiBitAdder(Size);
register = new MultiBitRegister(Size);
register.Load.Value = 1;
mux_op.ConnectControl(Load);
mux_op.ConnectInput1(adder.Output);
mux_op.ConnectInput2(Input);
register.ConnectInput(mux_op.Output);
Output.ConnectInput(register.Output);
adder.ConnectInput1(register.Output);
adder.ConnectInput2(val);
}
//your code here
public Memory(int iAddressSize, int iWordSize)
{
AddressSize = iAddressSize;
WordSize = iWordSize;
Input = new WireSet(WordSize);
Output = new WireSet(WordSize);
Address = new WireSet(AddressSize);
Load = new Wire();
//your code here
demux = new BitwiseMultiwayDemux(1, iAddressSize);
mux = new BitwiseMultiwayMux(iWordSize, iAddressSize);
loadWs = new WireSet(1);
loadWs[0].ConnectInput(Load);
demux.ConnectControl(Address);
demux.ConnectInput(loadWs);
MultiBitRegister[] mbr = new MultiBitRegister[(int)Math.Pow(2, iAddressSize)];
for (int i = 0; i < mbr.Length; i++)
{
mbr[i] = new MultiBitRegister(iWordSize);
mbr[i].ConnectInput(Input);
mbr[i].Load.ConnectInput(demux.Outputs[i][0]);
mux.Inputs[i].ConnectInput(mbr[i].Output);
}
mux.ConnectControl(Address);
Output.ConnectInput(mux.Output);
}
private void ConnectRegisters()
{
m_registers = new MultiBitRegister[(int)Math.Pow(2, AddressSize)];
for (int i = 0; i < m_registers.Length; i++)
{
var register = new MultiBitRegister(WordSize);
m_registers[i] = register;
register.ConnectInput(Input);
register.Load.ConnectInput(m_addressDemux.Outputs[i]);
m_outputMux.Inputs[i].ConnectInput(register.Output);
}
}
// creating memory component by using array of multi bit register
// using 2 demux - one for the date input and one for the load input(to know if read/write)
// using mux for the output
public Memory(int iAddressSize, int iWordSize)
{
AddressSize = iAddressSize;
WordSize = iWordSize;
Input = new WireSet(WordSize);
Output = new WireSet(WordSize);
Address = new WireSet(AddressSize);
Load = new Wire();
load_wireset = new WireSet(1);
memory_cells = new MultiBitRegister[(int)Math.Pow(2, AddressSize)];
input_demux = new BitwiseMultiwayDemux(WordSize, AddressSize);
input_demux_for_load = new BitwiseMultiwayDemux(1, AddressSize);
output_mux = new BitwiseMultiwayMux(WordSize, AddressSize);
for (int cell = 0; cell < memory_cells.Length; cell++)
{
memory_cells[cell] = new MultiBitRegister(WordSize);
}
load_wireset[0].ConnectInput(Load);
input_demux.ConnectControl(Address);
input_demux_for_load.ConnectControl(Address);
output_mux.ConnectControl(Address);
input_demux.ConnectInput(Input);
input_demux_for_load.ConnectInput(load_wireset);
for (int cell = 0; cell < memory_cells.Length; cell++)
{
memory_cells[cell].Load.ConnectInput(input_demux_for_load.Outputs[cell][0]);
memory_cells[cell].ConnectInput(input_demux.Outputs[cell]);
output_mux.Inputs[cell].ConnectInput(memory_cells[cell].Output);
}
Output.ConnectInput(output_mux.Output);
}
public Memory(int iAddressSize, int iWordSize)
{
AddressSize = iAddressSize;
WordSize = iWordSize;
Input = new WireSet(WordSize);
Output = new WireSet(WordSize);
Address = new WireSet(AddressSize);
Load = new Wire();
//your code here
m_rMultiBit = new MultiBitRegister[(int)Math.Pow(2, AddressSize)];
m_gBWMultiMux = new BitwiseMultiwayMux(WordSize, AddressSize); //output
m_gBWMultiMux.ConnectControl(Address);
//connect all the inputs in loop
m_gBWMultiDemux = new BitwiseMultiwayDemux(1, AddressSize); // Read/Write address
m_gBWMultiDemux.ConnectControl(Address);
WireSet connection = new WireSet(1); //because BWMultiwayDemux receives WireSet
connection[0].ConnectInput(Load);
m_gBWMultiDemux.ConnectInput(connection);
//connect all the outputs in loop
for (int i = 0; i < m_rMultiBit.Length; i++)
{
m_rMultiBit[i] = new MultiBitRegister(WordSize); //init
m_rMultiBit[i].Load.ConnectInput(m_gBWMultiDemux.Outputs[i][0]); //connect Load from Demux output
m_rMultiBit[i].ConnectInput(Input); // connect input
m_gBWMultiMux.Inputs[i].ConnectInput(m_rMultiBit[i].Output); //connect output to Mux
}
Output.ConnectInput(m_gBWMultiMux.Output);
}
//your code here
public Memory(int iAddressSize, int iWordSize)
{
AddressSize = iAddressSize;
WordSize = iWordSize;
Input = new WireSet(WordSize);
Output = new WireSet(WordSize);
Address = new WireSet(AddressSize);
Load = new Wire();
int numOfbits = (int)Math.Pow(2, AddressSize);
var mBitwiseMultiwayDemux = new BitwiseMultiwayDemux(1, AddressSize);
var mBitwiseMultiwayMux = new BitwiseMultiwayMux(WordSize, AddressSize);
var mRegisters = new MultiBitRegister[numOfbits];
mRegisters[0] = new MultiBitRegister(iWordSize);
for (int i = 0; i < numOfbits; i++)
{
if (i == 0)
{
mBitwiseMultiwayDemux.Input[0].ConnectInput(Load);
mBitwiseMultiwayDemux.ConnectControl(Address);
mRegisters[0].ConnectInput(Input);
mRegisters[0].Load.ConnectInput(mBitwiseMultiwayDemux.Outputs[0][0]);
mBitwiseMultiwayMux.ConnectInput(0, mRegisters[0].Output);
continue;
}
mRegisters[i] = new MultiBitRegister(iWordSize);
mRegisters[i].ConnectInput(Input);
mRegisters[i].Load.ConnectInput(mBitwiseMultiwayDemux.Outputs[i][0]);
mBitwiseMultiwayMux.ConnectInput(i, mRegisters[i].Output);
}
mBitwiseMultiwayMux.ConnectControl(Address);
Output = mBitwiseMultiwayMux.Output;
}
static void Main(string[] args)
{
OrGate or = new OrGate();
XorGate xor = new XorGate();
AndGate and = new AndGate();
MuxGate mux = new MuxGate();
Demux demux = new Demux();
HalfAdder halfAdder = new HalfAdder();
FullAdder fullAdder = new FullAdder();
WireSet wireSet = new WireSet(9);
BitwiseAndGate bwag = new BitwiseAndGate(2);
BitwiseNotGate bwng = new BitwiseNotGate(3);
BitwiseOrGate bwog = new BitwiseOrGate(2);
BitwiseMux bwm = new BitwiseMux(2);
BitwiseDemux bwd = new BitwiseDemux(2);
MultiBitAndGate mbag = new MultiBitAndGate(4);
MultiBitAdder mba = new MultiBitAdder(3);
BitwiseMultiwayMux bwmwm = new BitwiseMultiwayMux(5, 4);
BitwiseMultiwayDemux bwmwd = new BitwiseMultiwayDemux(4, 4);
SingleBitRegister sbr = new SingleBitRegister();
MultiBitRegister mbr = new MultiBitRegister(4);
if (!sbr.TestGate())
{
Console.WriteLine("SingleBitRegisterbugbug");
}
if (!mbr.TestGate())
{
Console.WriteLine("MultiBitRegisterbugbug");
}
ALU alu = new ALU(4);
if (!alu.TestGate())
{
Console.WriteLine("ALUbugbug");
}
if (!bwmwd.TestGate())
{
Console.WriteLine("BitwiseMultiwayDemuxbugbug");
}
if (!bwmwm.TestGate())
{
Console.WriteLine("BitwiseMultiwayMuxbugbug");
}
if (!mba.TestGate())
{
Console.WriteLine("MultiBitAdderbugbug");
}
if (!mbag.TestGate())
{
Console.WriteLine("MultiBitAndGatebugbug");
}
if (!bwd.TestGate())
{
Console.WriteLine("BitWiseDemuxbugbug");
}
if (!bwm.TestGate())
{
Console.WriteLine("BitWiseMuxbugbug");
}
if (!bwog.TestGate())
{
Console.WriteLine("BitWiseOrGatebugbug");
}
if (!bwng.TestGate())
{
Console.WriteLine("BitWiseNotGatebugbug");
}
if (!bwag.TestGate())
{
Console.WriteLine("BitWiseAndGatebugbug");
}
wireSet.SetValue(137);
wireSet.Set2sComplement(-32);
if (!and.TestGate())
{
Console.WriteLine("andbugbug");
}
if (!or.TestGate())
{
Console.WriteLine("orbugbug");
}
if (!xor.TestGate())
{
Console.WriteLine("xorbugbug");
}
if (!mux.TestGate())
{
Console.WriteLine("muxbugbug");
}
if (!demux.TestGate())
{
Console.WriteLine("demuxbugbug");
}
if (!halfAdder.TestGate())
{
Console.WriteLine("HAbugbug");
}
if (!fullAdder.TestGate())
{
Console.WriteLine("FAbugbug");
}
Memory memory = new Memory(2, 6);
if (!memory.TestGate())
{
Console.WriteLine("Membugbug");
}
Console.WriteLine("done");
Console.ReadLine();
}
static void Main(string[] args)
{
AndGate and = new AndGate();
OrGate or = new OrGate();
XorGate xor = new XorGate();
MuxGate mux = new MuxGate();
Demux demux = new Demux();
HalfAdder ha = new HalfAdder();
FullAdder fa = new FullAdder();
if (!and.TestGate())
{
Console.WriteLine("bugbug");
}
Console.WriteLine("done And");
if (!or.TestGate())
{
Console.WriteLine("bugbug");
}
Console.WriteLine("done Or");
if (!xor.TestGate())
{
Console.WriteLine("bugbug");
}
Console.WriteLine("done Xor");
if (!mux.TestGate())
{
Console.WriteLine("bugbug");
}
Console.WriteLine("done Mux");
if (!demux.TestGate())
{
Console.WriteLine("bugbug");
}
Console.WriteLine("done Demux");
if (!ha.TestGate())
{
Console.WriteLine("bugbug");
}
Console.WriteLine("done HalfAdder");
if (!fa.TestGate())
{
Console.WriteLine("bugbug");
}
Console.WriteLine("done FullAdder");
WireSet num = new WireSet(4);
num.SetValue(6);
Console.WriteLine(num.ToString());
Console.WriteLine(num.GetValue());
Console.WriteLine("trying 2's complement");
WireSet num2 = new WireSet(4);
num2.Set2sComplement(6);
Console.WriteLine(num2.Get2sComplement());
WireSet num3 = new WireSet(4);
num3.Set2sComplement(-2);
Console.WriteLine(num3.Get2sComplement());
BitwiseAndGate BWAnd = new BitwiseAndGate(3);
BWAnd.TestGate();
BitwiseNotGate BWNot = new BitwiseNotGate(3);
BWNot.TestGate();
BitwiseOrGate BWOr = new BitwiseOrGate(3);
BWOr.TestGate();
BitwiseMux BWMux = new BitwiseMux(3);
BWMux.TestGate();
BitwiseDemux BWDemux = new BitwiseDemux(3);
BWDemux.TestGate();
MultiBitAndGate multiAnd = new MultiBitAndGate(3);
multiAnd.TestGate();
MultiBitAdder multiAdd = new MultiBitAdder(5);
multiAdd.TestGate();
BitwiseMultiwayMux multimux = new BitwiseMultiwayMux(8, 2);
WireSet[] inp = new WireSet[4];
inp[0] = new WireSet(8);
inp[0].Set2sComplement(1);
multimux.ConnectInput(0, inp[0]);
inp[1] = new WireSet(8);
inp[1].Set2sComplement(2);
multimux.ConnectInput(1, inp[1]);
inp[2] = new WireSet(8);
inp[2].Set2sComplement(3);
multimux.ConnectInput(2, inp[2]);
inp[3] = new WireSet(8);
inp[3].Set2sComplement(4);
multimux.ConnectInput(3, inp[3]);
WireSet control = new WireSet(2);
control.Set2sComplement(3);
multimux.ConnectControl(control);
multimux.TestGate();
BitwiseMultiwayDemux multidemux = new BitwiseMultiwayDemux(8, 1);
ALU alu = new ALU(16);
alu.TestGate();
SingleBitRegister sbr = new SingleBitRegister();
if (sbr.TestGate())
{
Console.WriteLine("sbr IS OK");
}
MultiBitRegister mbr = new MultiBitRegister(8);
if (mbr.TestGate())
{
Console.WriteLine("mbr IS OK");
}
Memory mem = new Memory(3, 6);
if (mem.TestGate())
{
Console.WriteLine("mem IS OK");
}
Console.ReadLine();
}
static void Main(string[] args)
{
//Console.WriteLine("============================================================================");
//Console.WriteLine("Wireset tests:");
//Console.WriteLine();
//Console.WriteLine("Wireset.SetValue(int x) test:");
//Console.Write("Enter the num of bits: ");
//int numOfBits = Convert.ToInt32(Console.ReadLine());
//WireSet wire1 = new WireSet(numOfBits);
//Console.Write("Enter a num between 0 and " + (int)Math.Pow(2, numOfBits) + " to convert into binary: ");
//int userNum = Convert.ToInt32(Console.ReadLine());
//wire1.SetValue(userNum);
//Console.WriteLine("Your number binary representation: " + wire1.ToString());
//Console.WriteLine();
//Console.WriteLine("Wireset.GetValue() test:");
//Console.WriteLine("Your number decimal representation (expected value: " + userNum + "): " + wire1.GetValue());
//Console.WriteLine();
//Console.WriteLine("Wireset.Set2sComplement() test:");
//Console.Write("Enter the num of bits: ");
//int numOfBits2 = Convert.ToInt32(Console.ReadLine());
//WireSet wire2 = new WireSet(numOfBits2);
//Console.Write("Enter a num between -" + (int)Math.Pow(2, numOfBits2 - 1) + " and " + ((int)Math.Pow(2, numOfBits2 - 1) - 1) + " to convert into binary: ");
//string input = Console.ReadLine();
//int userNum2 = 1;
//if (input[0] == '-')
//{
// input = input.TrimStart('-');
// userNum2 = -1;
//}
//userNum2 = userNum2 * (Convert.ToInt32(input));
//wire2.Set2sComplement(userNum2);
//Console.WriteLine("Your number binary representation: " + wire2.ToString());
//Console.WriteLine();
//Console.WriteLine("Wireset.Get2sComplement() test:");
//Console.WriteLine("Your number decimal representation (expected value: " + userNum2 + "): " + wire2.Get2sComplement());
//Console.WriteLine("============================================================================");
//Console.WriteLine();
//Console.WriteLine("============================================================================");
//Console.WriteLine();
//Console.WriteLine("HalfAdder tests:");
//HalfAdder ha = new HalfAdder();
//Wire in1 = new Wire();
//Wire in2 = new Wire();
//in1.Value = 0;
//in2.Value = 0;
//ha.Input1.ConnectInput(in1);
//ha.Input2.ConnectInput(in2);
//Console.WriteLine(ha.ToString());
//ha = new HalfAdder();
//in1.Value = 1;
//ha.Input1.ConnectInput(in1);
//ha.Input2.ConnectInput(in2);
//Console.WriteLine(ha.ToString());
//ha = new HalfAdder();
//in2.Value = 1;
//ha.Input1.ConnectInput(in1);
//ha.Input2.ConnectInput(in2);
//Console.WriteLine(ha.ToString());
//ha = new HalfAdder();
//in1.Value = 0;
//ha.Input1.ConnectInput(in1);
//ha.Input2.ConnectInput(in2);
//Console.WriteLine(ha.ToString());
//Console.WriteLine();
//Console.WriteLine("Inner test result: " + ha.TestGate());
//Console.WriteLine("============================================================================");
//Console.WriteLine();
//Console.WriteLine("============================================================================");
//Console.WriteLine();
//Console.WriteLine("FullAdder tests:");
//FullAdder fa = new FullAdder();
//Console.WriteLine("Inner test result: " + fa.TestGate());
//Console.WriteLine("============================================================================");
//Console.WriteLine();
//Console.WriteLine("MultiBitAdder tests:");
//bool loop = true;
//while (loop)
//{
// Console.Write("Enter the num of bits (hit 'e' to exit): ");
// string strIn = Console.ReadLine();
// if (strIn == "e")
// loop = false;
// else
// {
// int numOfBits4 = Convert.ToInt32(strIn);
// Console.Write("Enter first num between -" + (int)Math.Pow(2, numOfBits4 - 1) + " and " + ((int)Math.Pow(2, numOfBits4 - 1) - 1) + " to compute: ");
// int userNum41 = Convert.ToInt32(Console.ReadLine());
// Console.Write("Enter second num between -" + (int)Math.Pow(2, numOfBits4 - 1) + " and " + ((int)Math.Pow(2, numOfBits4 - 1) - 1) + " to compute: ");
// int userNum42 = Convert.ToInt32(Console.ReadLine());
// MultiBitAdder mba = new MultiBitAdder(numOfBits4);
// WireSet in1 = new WireSet(numOfBits4);
// WireSet in2 = new WireSet(numOfBits4);
// in1.Set2sComplement(userNum41);
// in2.Set2sComplement(userNum42);
// mba.ConnectInput1(in1);
// mba.ConnectInput2(in2);
// Console.WriteLine("Computation: (" + mba.Input1.Get2sComplement() + ") + (" + mba.Input2.Get2sComplement() + ") = (" + mba.Output.Get2sComplement() + ")");
// Console.WriteLine(mba);
// }
//}
//Console.WriteLine("============================================================================");
//Console.WriteLine();
//Console.WriteLine("ALU tests:");
//bool loop = true;
//while (loop)
//{
// Console.Write("Enter the num of bits ('e' + 'enter' to exit the test loop): ");
// string strIn = Console.ReadLine();
// if (strIn == "e")
// loop = false;
// else
// {
// int numOfBits5 = Convert.ToInt32(strIn);
// Console.Write("Enter X input between -" + (int)Math.Pow(2, numOfBits5 - 1) + " and " + ((int)Math.Pow(2, numOfBits5 - 1) - 1) + " to compute: ");
// int userNum51 = Convert.ToInt32(Console.ReadLine());
// Console.Write("Enter Y input between -" + (int)Math.Pow(2, numOfBits5 - 1) + " and " + ((int)Math.Pow(2, numOfBits5 - 1) - 1) + " to compute: ");
// int userNum52 = Convert.ToInt32(Console.ReadLine());
// WireSet in1 = new WireSet(numOfBits5);
// WireSet in2 = new WireSet(numOfBits5);
// in1.Set2sComplement(userNum51);
// in2.Set2sComplement(userNum52);
// Console.WriteLine();
// Console.WriteLine("your binary num1: " + in1);
// Console.WriteLine("your binary num2: " + in2);
// Console.WriteLine();
// ALU alu = new ALU(numOfBits5);
// //setting ALU properties:
// alu.InputX.ConnectInput(in1);
// alu.InputY.ConnectInput(in2);
// Wire userWire1 = new Wire();
// Wire userWire2 = new Wire();
// Wire userWire3 = new Wire();
// Wire userWire4 = new Wire();
// Wire userWire5 = new Wire();
// Wire userWire6 = new Wire();
// Wire userWire7 = new Wire();
// Console.Write("Enter ZX value: ");
// userWire1.Value = Convert.ToInt32(Console.ReadLine());
// alu.ZeroX.ConnectInput(userWire1);
// Console.Write("Enter NX value: ");
// userWire2.Value = Convert.ToInt32(Console.ReadLine());
// alu.NotX.ConnectInput(userWire2);
// Console.Write("Enter ZY value: ");
// userWire3.Value = Convert.ToInt32(Console.ReadLine());
// alu.ZeroY.ConnectInput(userWire3);
// Console.Write("Enter NY value: ");
// userWire4.Value = Convert.ToInt32(Console.ReadLine());
// alu.NotY.ConnectInput(userWire4);
// Console.Write("Enter F value: ");
// userWire5.Value = Convert.ToInt32(Console.ReadLine());
// alu.F.ConnectInput(userWire5);
// Console.Write("Enter N value: ");
// userWire6.Value = Convert.ToInt32(Console.ReadLine());
// alu.NotOutput.ConnectInput(userWire6);
// Console.WriteLine();
// Console.Write("Data: ");
// Console.WriteLine(" ZX = " + alu.ZeroX + "; NX = " + alu.NotX + "; ZY = " + alu.ZeroY + "; NY = " + alu.NotY + "; F = " + alu.F + "; N = " + alu.NotOutput + ".");
// Console.WriteLine();
// Console.WriteLine("output is Zero (no = 0/yes = 1): " + alu.Zero);
// Console.WriteLine("output is Negative (no = 0/yes = 1): " + alu.Negative);
// Console.WriteLine("output binary: " + alu.Output);
// Console.WriteLine("output decimal: " + alu.Output.Get2sComplement());
// Console.WriteLine("============================================================================");
// }
//}
SingleBitRegister sbr = new SingleBitRegister();
Console.WriteLine("single bit register testGate: " + sbr.TestGate());
Console.WriteLine("============================================================================");
Console.Write("Enter num of multibitRegister bits: ");
int multiLength = Convert.ToInt32(Console.ReadLine());
MultiBitRegister mbr = new MultiBitRegister(multiLength);
Console.WriteLine("multi bit register testGate: " + mbr.TestGate());
Console.WriteLine("============================================================================");
Console.Write("Enter WordSize bits: ");
int wordsize = Convert.ToInt32(Console.ReadLine());
Console.Write("Enter AddressSize bits: ");
int addresssize = Convert.ToInt32(Console.ReadLine());
Memory mmry = new Memory(addresssize, wordsize);
Console.WriteLine("memory testGate: " + mmry.TestGate());
//exit point if needed:
//Console.WriteLine("press any key to exit...");
Console.ReadKey();
}
static void Main(string[] args)
{
//This is an example of a testing code that you should run for all the gates that you create
//
// //Create a gate
// AndGate and = new AndGate();
// //Test that the unit testing works properly
// if (!and.TestGate())
// Console.WriteLine("bugbug");
//
// //test or gate
// OrGate or = new OrGate();
// if (or.TestGate())
// Console.WriteLine("done or");
//
//test xor gate
// XorGate xor = new XorGate();
// if (xor.TestGate())
// Console.WriteLine("done xor");
//
// MultiBitAndGate mbaGate = new MultiBitAndGate(4);
// if (mbaGate.TestGate())
// Console.WriteLine("done mba");
//
// MultiBitOrGate mboGate = new MultiBitOrGate(4);
// if (mboGate.TestGate())
// Console.WriteLine("done mbo");
//
// MuxGate mux = new MuxGate();
// if (mux.TestGate())
// Console.WriteLine("done mux");
//
// Demux demux = new Demux();
// if (demux.TestGate())
// Console.WriteLine("done demux");
//
// BitwiseAndGate bwAg = new BitwiseAndGate(4);
// if (bwAg.TestGate())
// Console.WriteLine("done bwAg");
//
// BitwiseNotGate bwNg = new BitwiseNotGate(4);
// if (bwNg.TestGate())
// Console.WriteLine("done bwNg");
////
// BitwiseOrGate bwOg = new BitwiseOrGate(4);
// if (bwOg.TestGate())
// Console.WriteLine("done bwOg");
//
//
// WireSet ws = new WireSet(4);
// ws.SetValue(8);
// Console.WriteLine(ws.ToString());
////
// BitwiseMux bwMux = new BitwiseMux(4);
// if (bwMux.TestGate())
// Console.WriteLine("done bwMux");
//
// BitwiseDemux bwDemux = new BitwiseDemux(4);
// if (bwDemux.TestGate())
// Console.WriteLine("done bwDemux");
//
// BitwiseMultiwayMux bwMwMux = new BitwiseMultiwayMux(3,3);
// if (bwMwMux.TestGate())
// Console.WriteLine("done bwMwMux");
OrGate or = new OrGate();
XorGate xor = new XorGate();
AndGate and = new AndGate();
MuxGate mux = new MuxGate();
Demux demux = new Demux();
HalfAdder halfAdder = new HalfAdder();
FullAdder fullAdder = new FullAdder();
WireSet wireSet = new WireSet(9);
BitwiseAndGate bwag = new BitwiseAndGate(2);
BitwiseNotGate bwng = new BitwiseNotGate(3);
BitwiseOrGate bwog = new BitwiseOrGate(2);
BitwiseMux bwm = new BitwiseMux(2);
BitwiseDemux bwd = new BitwiseDemux(2);
MultiBitAndGate mbag = new MultiBitAndGate(4);
MultiBitAdder mba = new MultiBitAdder(3);
BitwiseMultiwayMux bwmwm = new BitwiseMultiwayMux(5, 4);
BitwiseMultiwayDemux bwmwd = new BitwiseMultiwayDemux(4, 4);
SingleBitRegister sbr = new SingleBitRegister();
MultiBitRegister mbr = new MultiBitRegister(4);
wireSet.SetValue(137);
wireSet.Set2sComplement(-32);
if (halfAdder.TestGate())
{
Console.WriteLine("HAbugbug");
}
if (fullAdder.TestGate())
{
Console.WriteLine("FAbugbug");
}
if (mba.TestGate())
{
Console.WriteLine("MultiBitAdderbugbug");
}
ALU alu = new ALU(16);
if (alu.TestGate())
{
Console.WriteLine("ALU bugbug");
}
Console.WriteLine("FINISH HIM");
}
