public override bool TestGate()
{
try
{
var ws1 = new WireSet(Size);
for (int i = 0; i < Math.Pow(2, Size) - 1; i++)
{
ws1.SetValue(i);
for (int j = 0; j < Math.Pow(2, Size) - 1; j++)
{
var mgOr = new BitwiseOrGate(Size);
var ws2 = new WireSet(Size);
ws2.SetValue(j);
mgOr.ConnectInput1(ws1);
mgOr.ConnectInput2(ws2);
for (int k = 0; k < ws1.Size; k++)
{
if (mgOr.Output[j].Value != (ws1[j].Value | ws2[j].Value))
{
return(false);
}
}
}
}
}
catch (Exception e)
{
Console.WriteLine(e.Message + " " + e.HelpLink);
}
return(true);
}
public override bool TestGate()
{
BitwiseOrGate bwog;
OrGate m_gLocalOr;
for (int j = 0; j < Math.Pow(2, Size); j++)
{
bwog = new BitwiseOrGate(Size);
bwog.Input1.ConnectInput(InitTestVariables(j));
bwog.Input2.ConnectInput(InitRandTestVar(Size));
for (int i = 0; i < Size; i++)
{
m_gLocalOr = new OrGate();
m_gLocalOr.ConnectInput1(bwog.Input1[i]);
m_gLocalOr.ConnectInput2(bwog.Input2[i]);
if (bwog.Input1[i].Value == 1 || bwog.Input2[i].Value == 1)
{
if (m_gLocalOr.Output.Value != 1 || bwog.m_gOrGate[i].Output.Value != 1)
{
return(false);
}
}
else
{
if (m_gLocalOr.Output.Value != 0)
{
return(false);
}
}
}
// UNCOMMENT THIS LINES TO SEE THE DEBUG PRINT
//System.Console.WriteLine(" Testing input1 " + " -> " + WStoString(bwog.Input1));
//System.Console.WriteLine(" Testing input2 " + " -> " + WStoString(bwog.Input2));
//System.Console.WriteLine(" Testing output " + " -> " + WStoString(bwog.Output));
}
return(true);
}
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)
{
//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");
}
public override bool TestGate()
{
ALU al;
WireSet[] inputs = new WireSet[2];
WireSet[] solution = new WireSet[18];
WireSet[] all = new WireSet[6];
for (int i = 0; i < all.Length; i++)
{
all[i] = new WireSet(18);
}
WireSet wsTemp = new WireSet(18);
WireSet wsTemp2 = new WireSet(Size);
wsTemp.SetValue(240288);
all[0].ConnectInput(wsTemp);
wsTemp = new WireSet(18);
wsTemp.SetValue(109481);
all[1].ConnectInput(wsTemp);
wsTemp = new WireSet(18);
wsTemp.SetValue(251200);
all[2].ConnectInput(wsTemp);
wsTemp = new WireSet(18);
wsTemp.SetValue(87493);
all[3].ConnectInput(wsTemp);
wsTemp = new WireSet(18);
wsTemp.SetValue(231420);
all[4].ConnectInput(wsTemp);
wsTemp = new WireSet(18);
wsTemp.SetValue(73613);
all[5].ConnectInput(wsTemp);
for (int i = 0; i < Size; i++)
{
for (int j = 0; j < Size; j++)
{
for (int f = 0; f < solution.Length; f++)
{
solution[f] = new WireSet(Size);
}
inputs[0] = new WireSet(Size);
inputs[1] = new WireSet(Size);
inputs[0].SetValue(i);
inputs[1].SetValue(j);
wsTemp2 = new WireSet(Size);
wsTemp2.SetValue(0);
solution[0].ConnectInput(wsTemp2);
wsTemp2 = new WireSet(Size);
wsTemp2.SetValue(1);
solution[1].ConnectInput(wsTemp2);
wsTemp2 = new WireSet(Size);
wsTemp2.Set2sComplement(-1);
solution[2].ConnectInput(wsTemp2);
solution[3].ConnectInput(inputs[0]);
solution[4].ConnectInput(inputs[1]);
BitwiseNotGate bwng = new BitwiseNotGate(Size);
bwng.ConnectInput(inputs[0]);
solution[5].ConnectInput(bwng.Output);
bwng = new BitwiseNotGate(Size);
bwng.ConnectInput(inputs[1]);
solution[6].ConnectInput(bwng.Output);
wsTemp2 = new WireSet(Size);
wsTemp2.SetValue(inputs[0].GetValue() * -1);
solution[7].ConnectInput(wsTemp2);
wsTemp2 = new WireSet(Size);
wsTemp2.SetValue(inputs[1].GetValue() * -1);
solution[8].ConnectInput(wsTemp2);
wsTemp2 = new WireSet(Size);
wsTemp2.SetValue(inputs[0].GetValue() + 1);
solution[9].ConnectInput(wsTemp2);
wsTemp2 = new WireSet(Size);
wsTemp2.SetValue(inputs[1].GetValue() + 1);
solution[10].ConnectInput(wsTemp2);
wsTemp2 = new WireSet(Size);
wsTemp2.SetValue(inputs[0].GetValue() - 1);
solution[11].ConnectInput(wsTemp2);
wsTemp2 = new WireSet(Size);
wsTemp2.SetValue(inputs[1].GetValue() - 1);
solution[12].ConnectInput(wsTemp2);
wsTemp2 = new WireSet(Size);
wsTemp2.SetValue(inputs[0].GetValue() + inputs[1].GetValue());
solution[13].ConnectInput(wsTemp2);
wsTemp2 = new WireSet(Size);
wsTemp2.SetValue(inputs[0].GetValue() - inputs[1].GetValue());
solution[14].ConnectInput(wsTemp2);
wsTemp2 = new WireSet(Size);
wsTemp2.SetValue(inputs[1].GetValue() - inputs[0].GetValue());
solution[15].ConnectInput(wsTemp2);
BitwiseOrGate bwog = new BitwiseOrGate(Size);
BitwiseAndGate bwag = new BitwiseAndGate(Size);
bwog.ConnectInput1(inputs[0]);
bwog.ConnectInput2(inputs[1]);
bwag.ConnectInput1(inputs[0]);
bwag.ConnectInput2(inputs[1]);
solution[16].ConnectInput(bwag.Output);
solution[17].ConnectInput(bwog.Output);
for (int k = 0; k < 18; k++)
{
al = new ALU(Size);
al.InputX.ConnectInput(inputs[0]);
al.InputY.ConnectInput(inputs[1]);
al.ZeroX.Value = all[0][17 - k].Value;
al.NotX.Value = all[1][17 - k].Value;
al.ZeroY.Value = all[2][17 - k].Value;
al.NotY.Value = all[3][17 - k].Value;
al.F.Value = all[4][17 - k].Value;
al.NotOutput.Value = all[5][17 - k].Value;
if (al.Output.ToString() != solution[k].ToString())
{
return(false);
}
}
}
}
return(true);
}