def NormalTrafficVar(List): for i in range(0, 4): Gtime = 20 if (List[i] > 0): Green(i + 1, List[i], List[i], Gtime) for j in range(0, 4): if (j == i): continue else: Red(j + 1) time.sleep(Gtime / 10) Yellow(i + 1) time.sleep(2) Red(i + 1)
def CongestedTrafficG(List): #Gtime=30 #MinIndex=GetMinCarIndex(List) for i in range(0,4): if(List[i]<=10) and (List[i]>0): Gtime=int(List[i]*3/2)*2 Green(i+1,List[i],List[i],Gtime) for j in range(0, 4): if (j == i): continue else: Red(j+1) time.sleep(Gtime / 10) Yellow(i+1) time.sleep(2) Red(i+1) List[i]=0 MaxIndex=GetMaxCarIndex(List) while(List[MaxIndex]>0): for i in range(0, 4): if (List[i] <= 5) and (List[i] > 0): Gtime = int(List[i] * 3 / 2) * 2 Green(i + 1, List[i], List[i], Gtime) for j in range(0, 4): if (j == i): continue else: Red(j + 1) time.sleep(Gtime / 10) Yellow(i + 1) time.sleep(2) Red(i + 1) List[i] = 0 Gtime=Interval(List) PassableCars=min(List[MaxIndex],round((Gtime*2)/3)) Green(MaxIndex+1,List[MaxIndex],PassableCars,Gtime) for j in range(0, 4): if (j == MaxIndex): continue else: Red(j+1) time.sleep(Gtime / 10) Yellow(MaxIndex+1) time.sleep(2) List[MaxIndex]=List[MaxIndex]-PassableCars MaxIndex=GetMaxCarIndex(List) time.sleep(1)
def CongestedTrafficVar(List): CheckList = [0, 0, 0, 0] LowCount = 0 for i in range(0, 4): if (List[i] <= 4) and (List[i] > 0): Gtime = 10 Green(i + 1, List[i], List[i], Gtime) CheckList[i] = 1 LowCount = LowCount + 1 for j in range(0, 4): if (j == i): continue else: Red(j + 1) time.sleep(Gtime / 10) Yellow(i + 1) time.sleep(2) Red(i + 1) List[i] = 0 MaxIndex = GetMaxCarIndex(List) while (List[MaxIndex] > 0): # Just one intersection left if (Zeroes(List) == 3): Req = NonZero(List) Gtime = List[Req] * 2 PassableCars = List[Req] Green(Req + 1, List[Req], PassableCars, Gtime) for j in range(0, 4): if (j == Req): continue else: Red(j + 1) time.sleep(Gtime / 10) Yellow(Req + 1) time.sleep(2) List[Req] = 0 CheckList[Req] = 1 break if (Ones(CheckList) == 3): Req = NthZero(CheckList) Gtime = min(Interval(List), List[Req] * 2) if (Gtime == 0): Gtime = 10 PassableCars = int(Gtime / 2) Green(Req + 1, List[Req], PassableCars, Gtime) for j in range(0, 4): if (j == Req): continue else: Red(j + 1) time.sleep(Gtime / 10) Yellow(Req + 1) time.sleep(2) List[Req] = List[Req] - PassableCars for i in range(0, 4): if (i == Req): CheckList[i] = 1 else: CheckList[i] = 0 if (CheckList[MaxIndex] == 1): MaxIndex = GetSMaxCarIndex(List) if (CheckList[MaxIndex] == 1): MaxIndex = GetTMaxCarIndex(List) Gtime = min(Interval(List), List[MaxIndex] * 2) PassableCars = min(List[MaxIndex], int(Gtime / 2)) Green(MaxIndex + 1, List[MaxIndex], PassableCars, Gtime) CheckList[MaxIndex] = 1 for j in range(0, 4): if (j == MaxIndex): continue else: Red(j + 1) time.sleep(Gtime / 10) Yellow(MaxIndex + 1) time.sleep(2) List[MaxIndex] = List[MaxIndex] - PassableCars MaxIndex = GetMaxCarIndex(List) time.sleep(1)
def CongestedTrafficS(List): CheckList = [0, 0, 0, 0] LowCount = 0 #Corner Case for i in range(0, 4): if (List[i] <= 3) and (List[i] > 0): Gtime = 10 Green(i + 1, List[i], List[i], Gtime) CheckList[i] = 1 LowCount = LowCount + 1 for j in range(0, 4): if (j == i): continue else: Red(j + 1) time.sleep(Gtime / 10) Yellow(i + 1) time.sleep(2) Red(i + 1) List[i] = 0 MaxIndex = GetMaxCarIndex(List) while (List[MaxIndex] > 0): # Just one intersection left if (Zeroes(List) == 3): Req = NonZero(List) Gtime = max(List[Req] * 2, 10) PassableCars = min(List[Req], int(Gtime / 2)) Green(Req + 1, List[Req], PassableCars, Gtime) for j in range(0, 4): if (j == Req): continue else: Red(j + 1) time.sleep(Gtime / 10) Yellow(Req + 1) time.sleep(2) List[Req] = 0 CheckList[Req] = 1 break #Just one side left and others have checklist true if (Ones(CheckList) == 3): Req = NthZero(CheckList) Gtime = min(IntervalSlab(List[Req]), List[Req] * 2) if (Gtime == 0): Gtime = 10 PassableCars = int(Gtime / 2) Green(Req + 1, List[Req], PassableCars, Gtime) for j in range(0, 4): if (j == Req): continue else: Red(j + 1) time.sleep(Gtime / 10) Yellow(Req + 1) time.sleep(2) List[Req] = List[Req] - PassableCars for i in range(0, 4): if (i == Req): CheckList[i] = 1 else: CheckList[i] = 0 #Check for Cycle if (CheckList[MaxIndex] == 1): MaxIndex = GetSMaxCarIndex(List) if (CheckList[MaxIndex] == 1): MaxIndex = GetTMaxCarIndex(List) #Normal Body Gtime = min(IntervalSlab(List[MaxIndex]), List[MaxIndex] * 2) Gtime = max(10, Gtime) PassableCars = min(List[MaxIndex], int(Gtime / 2)) Green(MaxIndex + 1, List[MaxIndex], PassableCars, Gtime) CheckList[MaxIndex] = 1 for j in range(0, 4): if (j == MaxIndex): continue else: Red(j + 1) time.sleep(Gtime / 10) Yellow(MaxIndex + 1) time.sleep(2) List[MaxIndex] = List[MaxIndex] - PassableCars MaxIndex = GetMaxCarIndex(List) time.sleep(1)