cyyeh/Logic Gate Simulation Using Python

## Logic Gate Simulation Using Python
class LogicGate:
    def __init__(self,n):
        self.name = n
        self.output = None

    def getName(self):
        return self.name

    def getOutput(self):
        self.output = self.performGateLogic()
        return self.output


class BinaryGate(LogicGate):
    def __init__(self,n):
        LogicGate.__init__(self,n)

        self.pinA = None
        self.pinB = None

    def getPinA(self):
        if self.pinA == None:
            return int(input("Enter Pin A input for gate "+self.getName()+"-->"))
        else:
            return self.pinA.getFrom().getOutput()

    def getPinB(self):
        if self.pinB == None:
            return int(input("Enter Pin B input for gate "+self.getName()+"-->"))
        else:
            return self.pinB.getFrom().getOutput()

    def setNextPin(self,source):
        if self.pinA == None:
            self.pinA = source
        else:
            if self.pinB == None:
                self.pinB = source
            else:
                print("Cannot Connect: NO EMPTY PINS on this gate")


class AndGate(BinaryGate):
    def __init__(self,n):
        BinaryGate.__init__(self,n)

    def performGateLogic(self):

        a = self.getPinA()
        b = self.getPinB()
        if a==1 and b==1:
            return 1
        else:
            return 0

class OrGate(BinaryGate):
    def __init__(self,n):
        BinaryGate.__init__(self,n)

    def performGateLogic(self):

        a = self.getPinA()
        b = self.getPinB()
        if a ==1 or b==1:
            return 1
        else:
            return 0

class NorGate(BinaryGate):
    def __init__(self,n):
        BinaryGate.__init__(self,n)

    def performGateLogic(self):
        a = self.getPinA()
        b = self.getPinB()
        if a == 0 and b == 0:
            return 1
        else:
            return 0

class NandGate(BinaryGate):
    def __init__(self, n):
        BinaryGate.__init__(self,n)

    def performGateLogic(self):
        a = self.getPinA()
        b = self.getPinB()
        if a == 1 and b == 1:
            return 0
        else:
            return 0

class UnaryGate(LogicGate):
    def __init__(self,n):
        LogicGate.__init__(self,n)

        self.pin = None

    def getPin(self):
        if self.pin == None:
            return int(input("Enter Pin input for gate "+self.getName()+"-->"))
        else:
            return self.pin.getFrom().getOutput()

    def setNextPin(self,source):
        if self.pin == None:
            self.pin = source
        else:
            print("Cannot Connect: NO EMPTY PINS on this gate")


class NotGate(UnaryGate):
    def __init__(self,n):
        UnaryGate.__init__(self,n)

    def performGateLogic(self):
        if self.getPin():
            return 0
        else:
            return 1


class Connector:
    def __init__(self, fgate, tgate):
        self.fromgate = fgate
        self.togate = tgate

        tgate.setNextPin(self)

    def getFrom(self):
        return self.fromgate

    def getTo(self):
        return self.togate


def main():
    # NOT((A AND B) OR (C AND D)))
    g1 = AndGate("g1")
    g2 = AndGate("g2")
    g3 = OrGate("g3")
    c1 = Connector(g1,g3)
    c2 = Connector(g2,g3)
    print(g3.getOutput())

    # NOT(A AND B) AND NOT(C AND D)
    G1 = NandGate("G1")
    G2 = NandGate("G2")
    G3 = AndGate("G3")
    C1 = Connector(G1, G3)
    C2 = Connector(G2, G3)
    print(G3.getOutput())

main()
	class LogicGate:
	def __init__(self,n):
	self.name = n
	self.output = None

	def getName(self):
	return self.name

	def getOutput(self):
	self.output = self.performGateLogic()
	return self.output


	class BinaryGate(LogicGate):
	def __init__(self,n):
	LogicGate.__init__(self,n)

	self.pinA = None
	self.pinB = None

	def getPinA(self):
	if self.pinA == None:
	return int(input("Enter Pin A input for gate "+self.getName()+"-->"))
	else:
	return self.pinA.getFrom().getOutput()

	def getPinB(self):
	if self.pinB == None:
	return int(input("Enter Pin B input for gate "+self.getName()+"-->"))
	else:
	return self.pinB.getFrom().getOutput()

	def setNextPin(self,source):
	if self.pinA == None:
	self.pinA = source
	else:
	if self.pinB == None:
	self.pinB = source
	else:
	print("Cannot Connect: NO EMPTY PINS on this gate")


	class AndGate(BinaryGate):
	def __init__(self,n):
	BinaryGate.__init__(self,n)

	def performGateLogic(self):

	a = self.getPinA()
	b = self.getPinB()
	if a==1 and b==1:
	return 1
	else:
	return 0

	class OrGate(BinaryGate):
	def __init__(self,n):
	BinaryGate.__init__(self,n)

	def performGateLogic(self):

	a = self.getPinA()
	b = self.getPinB()
	if a ==1 or b==1:
	return 1
	else:
	return 0

	class NorGate(BinaryGate):
	def __init__(self,n):
	BinaryGate.__init__(self,n)

	def performGateLogic(self):
	a = self.getPinA()
	b = self.getPinB()
	if a == 0 and b == 0:
	return 1
	else:
	return 0

	class NandGate(BinaryGate):
	def __init__(self, n):
	BinaryGate.__init__(self,n)

	def performGateLogic(self):
	a = self.getPinA()
	b = self.getPinB()
	if a == 1 and b == 1:
	return 0
	else:
	return 0

	class UnaryGate(LogicGate):
	def __init__(self,n):
	LogicGate.__init__(self,n)

	self.pin = None

	def getPin(self):
	if self.pin == None:
	return int(input("Enter Pin input for gate "+self.getName()+"-->"))
	else:
	return self.pin.getFrom().getOutput()

	def setNextPin(self,source):
	if self.pin == None:
	self.pin = source
	else:
	print("Cannot Connect: NO EMPTY PINS on this gate")


	class NotGate(UnaryGate):
	def __init__(self,n):
	UnaryGate.__init__(self,n)

	def performGateLogic(self):
	if self.getPin():
	return 0
	else:
	return 1


	class Connector:
	def __init__(self, fgate, tgate):
	self.fromgate = fgate
	self.togate = tgate

	tgate.setNextPin(self)

	def getFrom(self):
	return self.fromgate

	def getTo(self):
	return self.togate


	def main():
	# NOT((A AND B) OR (C AND D)))
	g1 = AndGate("g1")
	g2 = AndGate("g2")
	g3 = OrGate("g3")
	c1 = Connector(g1,g3)
	c2 = Connector(g2,g3)
	print(g3.getOutput())

	# NOT(A AND B) AND NOT(C AND D)
	G1 = NandGate("G1")
	G2 = NandGate("G2")
	G3 = AndGate("G3")
	C1 = Connector(G1, G3)
	C2 = Connector(G2, G3)
	print(G3.getOutput())

	main()