コード例 #1
0
ファイル: testHashTable.py プロジェクト: mcnic/algorithms
    def test_find(self):
        hashTable = HashTable(19, 3)
        self.assertEqual(hashTable.put('fsdfhxvn980cvnxcbfvjksd'), 8)
        self.assertEqual(hashTable.put('fsdfhxvnxmcvnxcbfvjksd'), 9)
        self.assertEqual(hashTable.put('yery54n77ji'), 11)
        self.assertEqual(hashTable.put('ert43564645'), 5)
        self.assertEqual(hashTable.put('rtbktut'), 16)
        self.assertEqual(hashTable.put('ывспмкенкнк'), 14)
        self.assertEqual(hashTable.put('fsdfhxvnxmcv08905xcbfvjksd'), 17)
        self.assertEqual(hashTable.put('вкс3еме45н5  564  '), 18)
        self.assertEqual(hashTable.put('fsdfhxыапукetxmcvnxcbfvjksd'), 6)
        self.assertEqual(hashTable.put('fsdfhxvnxmcvnxc5435sd'), 13)
        #self.assertEqual(hashTable.put('fsdfhxvnxm5443nxcbfvjksd'), 0)
        # print('test_find')

        self.assertEqual(hashTable.find('fsdfhxvnxmcv08905xcbfvjksd'), 17)
        self.assertEqual(hashTable.find('fsdfhxvnxmcvnxcbfvjksd'), 9)
        self.assertEqual(hashTable.find('yery54n77ji'), 11)
        self.assertEqual(hashTable.find('ert43564645'), 5)
        self.assertEqual(hashTable.find('fsdfhxvn980cvnxcbfvjksd'), 8)
        self.assertEqual(hashTable.find('fsdfhxvnxmcvnxc5435sd'), 13)
        self.assertEqual(hashTable.find('ывспмкенкнк'), 14)
        self.assertEqual(hashTable.find('вкс3еме45н5  564  '), 18)
        self.assertEqual(hashTable.find('fsdfhxыапукetxmcvnxcbfvjksd'), 6)
        self.assertEqual(hashTable.find('rtbktut'), 16)
        self.assertEqual(hashTable.find('fsdfhxvnxm5443nxcbfvjksd'), None)
コード例 #2
0
def main():
    table = HashTable(30)

    choice = int(
        input(
            "Choose dictionary to use:\n1. small.dict\n2. ispell.dict\n9. Exit\n"
        ))
    if choice == 1:
        f = open("small.dict", "r")
    elif choice == 2:
        f = open("ispell.dict", "r")
    elif choice == 9:
        return 0

    a = f.read().splitlines()
    print("Loading dictionary. Please wait...\n")
    for word in a:
        table.insert(word)
    print("Ready! Please enter values...")
    while True:
        key = input("Enter element to search: (Enter k to exit)\n")
        if key == 'k':
            break
        else:
            table.search(key)
コード例 #3
0
ファイル: testHashTable.py プロジェクト: mcnic/algorithms
    def test_put_anomale(self):
        hashTable = HashTable(1, 1)
        self.assertEqual(hashTable.put('fsdfhxvn980cvnxcbfvjksd'), 0)
        self.assertEqual(hashTable.put('fsdfhxvnxmcvnxcbfvjksd'), None)

        hashTable = HashTable(-1, 1)
        with self.assertRaises(ValueError):
            self.assertEqual(hashTable.put('fsdfhxvnxmcvnxcbfvjksd'), None)

        hashTable = HashTable(1, -10)
        self.assertEqual(hashTable.put('fsdfhxvn980cvnxcbfvjksd'), 0)
        self.assertEqual(hashTable.put('fsdfhxvnxmcvnxcbfvjksd'), None)

        hashTable = HashTable(1, 3)
        self.assertEqual(hashTable.put(''), 0)
        self.assertEqual(hashTable.put(''), None)
        self.assertEqual(hashTable.put(''), None)
コード例 #4
0
def main():
    t = HashTable()
    buildFromFile(t, 'small.dict')
    #t.keys()
    ans = t.search(input("enter word to search for: "), 1)
    if (ans == True):
        print("valid word")
    else:
        print("invalid word")
コード例 #5
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 def test_length(self):
     ht = HashTable()
     assert ht.length() == 0
     ht.set('I', 1)
     assert ht.length() == 1
     ht.set('V', 5)
     assert ht.length() == 2
     ht.set('X', 10)
     assert ht.length() == 3
コード例 #6
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def loopDetection(linkedList):
    myHashTable = HashTable()
    current = linkedList.head
    while (current.next):
        if (myHashTable.get(current)):
            return current
        else:
            myHashTable.put(current, current.value)
        current = current.next
コード例 #7
0
 def test_set_and_get(self):
     ht = HashTable()
     ht.set('I', 1)
     ht.set('V', 5)
     ht.set('X', 10)
     assert ht.get('I') == 1
     assert ht.get('V') == 5
     assert ht.get('X') == 10
     assert ht.length() == 3
     with self.assertRaises(KeyError):
         ht.get('A')  # Key does not exist
def zeroMatrix(matrix):
    m = len(matrix)
    n = len(matrix[0])
    iHashTable = HashTable()
    jHashTable = HashTable()
    for i in range(0, m):
        for j in range(0, n):
            if (matrix[i][j] == 0):
                iHashTable.put(i, "i")
                jHashTable.put(j, "j")
    ientries = iHashTable.getEntries()
    jentries = jHashTable.getEntries()

    for i in range(0, len(ientries)):
        for j in range(0, n):
            matrix[ientries[i]['key']][j] = 0
    for i in range(0, len(jentries)):
        for j in range(0, m):
            matrix[j][jentries[i]['key']] = 0
    return matrix
コード例 #9
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 def test_delete(self):
     ht = HashTable()
     ht.set('I', 1)
     ht.set('V', 5)
     ht.set('X', 10)
     assert ht.length() == 3
     ht.delete('I')
     ht.delete('X')
     assert ht.length() == 1
     with self.assertRaises(KeyError):
         ht.delete('X')  # Key no longer exists
     with self.assertRaises(KeyError):
         ht.delete('A')  # Key does not exist
コード例 #10
0
ファイル: testHashTable.py プロジェクト: mcnic/algorithms
    def test_hash_fun(self):
        hashTable = HashTable(19, 3)

        self.assertEqual(hashTable.hash_fun('fsdfhxvn980cvnxcbfvjksd'), 8)
        self.assertEqual(hashTable.hash_fun('fsdfhxvnxmcvnxcbfvjksd'), 9)
        self.assertEqual(hashTable.hash_fun('yery54n77ji'), 8)
        self.assertEqual(hashTable.hash_fun('ert43564645'), 5)
        self.assertEqual(hashTable.hash_fun('rtbktut'), 16)
        self.assertEqual(hashTable.hash_fun('ывспмкенкнк'), 11)
        self.assertEqual(hashTable.hash_fun('fsdfhxvnxmcv08905xcbfvjksd'), 8)
        self.assertEqual(hashTable.hash_fun('вкс3еме45н5  564  '), 18)
        self.assertEqual(hashTable.hash_fun('fsdfhxыапукetxmcvnxcbfvjksd'), 6)
        self.assertEqual(hashTable.hash_fun('fsdfhxvnxmcvnxc5435sd'), 13)
        self.assertEqual(hashTable.hash_fun('fsdfhxvnxm5443nxcbfvjksd'), 13)
コード例 #11
0
ファイル: autocorrect.py プロジェクト: yogesh1905/IT-LAB
def main():
    table = HashTable()
    buildFromFile(table, 'ispell.dict')
    print("dictionary built.")

    while True:
        word = input("word: ")
        if (table.search(word, 1) == True):
            print("Word found")
        else:
            list = getWordList(word)
            print("Suggestions:  ", end="")
            for w in list:
                if (table.search(w, 1) == True):
                    print(w, end=" ")
            print("\n")
def removeDups(linkedList):
    myHashTable = HashTable()
    current = linkedList.head
    while (current):
        myHashTable.put(current.value, "node")
        current = current.next
    entries = myHashTable.getEntries()
    current = linkedList.head
    for i in range(0, len(entries)):
        if (i == 0):
            linkedList.head.value = entries[i]['key']
        else:
            current.next.value = entries[i]['key']
            current = current.next
    current.next = None
    return linkedList
def linkedListPalindrome(linkedList):
    myHashTable = HashTable()
    pointer = linkedList.head
    while (pointer):
        if (myHashTable.get(pointer.value)):
            myHashTable.put(pointer.value, myHashTable.get(pointer.value) + 1)
        else:
            myHashTable.put(pointer.value, 1)
        pointer = pointer.next
    isPalindrome = True
    evenCount = 0
    oddCount = 0
    for i in range(0, len(myHashTable.getEntries())):
        if (myHashTable.getEntries()[i]['value'] % 2 == 0):
            evenCount = evenCount + 1
        else:
            oddCount = oddCount + 1
    if (oddCount > 1):
        isPalindrome = False
    return isPalindrome
def palindromePermutation(string):
    word = string.lower()
    myHashTable = HashTable()
    for i in range(0, len(word)):
        if (myHashTable.get(word[i]) != None):
            myHashTable.put(word[i], myHashTable.get(word[i]) + 1)
        elif (myHashTable.get(word[i]) == None and word[i] != " "):
            myHashTable.put(word[i], 1)

    numOfEvenOccurences = 0
    numOfOddOccurences = 0

    entries = myHashTable.getEntries()
    for i in range(0, len(entries)):
        if (entries[i]['value'] % 2 == 0):
            numOfEvenOccurences = numOfEvenOccurences + 1
        elif (entries[i]['value'] % 2 == 1):
            numOfOddOccurences = numOfOddOccurences + 1

    if (numOfOddOccurences > 1):
        return False
    else:
        return True
コード例 #15
0
from hashTable import HashTable
from truck import Truck
from distance_data import DistanceData
import utility

printMenu.print_menu()
menu = True
while menu:
    # truck1 start time
    delta_1 = timedelta(hours=8)
    # truck2 start time
    delta_2 = timedelta(hours=9, minutes=5)
    # truck3 start time
    delta_3 = timedelta(hours=10, minutes=20)
    # Create the hash table object
    hash_table = HashTable()
    # load the hash table
    HashTable.load_table(hash_table)
    # create and load the distance graph
    distance_graph = DistanceData.load_graph()
    # instantiate truck1
    truck1 = Truck(distance_graph, hash_table, delta_1)
    # instantiate truck2
    truck2 = Truck(distance_graph, hash_table, delta_2)
    # instantiate truck3
    truck3 = Truck(distance_graph, hash_table, delta_3)
    # load packages on truck1
    truck1.load_packages("4", "7", "13", "14", "15", "16", "19", "20", "27",
                         "29", "34", "40", "23", "11", "17")
    # make a sub-graph of the package locations
    truck1.create_sub_graph()
コード例 #16
0
from hashTable import HashTable

H = HashTable()
H[20] = 13
H[21] = 14
H[31] = 20
H[31] = 21
print(H[20])
print(H[21])
print(H[31])
print(len(H))
print(31 in H)
H.describe()
コード例 #17
0
def alphaBeta(board, player, ply, depth):
    """
    Alpha-Beta pruning algorithm.
    :param board: the board that minimax is performed on;
    :param player: the player whose turn it is;
    :param ply: the turn number
    :param - alpha: alpha value
    :param - beta: beta value
    :return value: value of the game.
    """

    rec_table = HashTable()
    node_count = 0
    table_hits = 0

    def do_alphaBeta(board, player, ply, alpha, beta, depth):
        """
        For memoization.
        """
        nonlocal node_count
        nonlocal table_hits

        # update stats
        node_count += 1

        # Transposition:
        board_hash = board.encode()
        if USE_TRANSPOSITION and board_hash in rec_table and\
                depth <= rec_table[board_hash][1]:
            table_hits += 1
            return rec_table[board_hash][0]

        # evaluate board
        b_eval = Evaluate(board)

        if b_eval.utility(ply) != Constants.NON_TERMINAL:  # terminal node
            ret = b_eval.utility(ply)
        elif depth <= 0:
            ret = b_eval.evaluation()
        else:
            successors = board.successors(player)

            if len(successors) <= 0:
                ret = Constants.DRAW
            elif player == Constants.MAX:
                v = Constants.NEGINF
                for child in successors:
                    v = max(v, do_alphaBeta(child, Constants.MIN, ply+1, \
                                         alpha, beta, depth-1))
                    alpha = max(alpha, v)
                    if beta <= alpha:
                        break  # beta cut-off
                ret = v
            else:
                v = Constants.INF
                for child in successors:
                    v = min(v, do_alphaBeta(child, Constants.MAX, ply+1, \
                                         alpha, beta, depth-1))
                    beta = min(beta, v)
                    if beta <= alpha:
                        break  # alpha cut-off
                ret = v

        # Transposition:
        if USE_TRANSPOSITION:
            rec_table[board_hash] = (ret, depth)

        return ret

    return do_alphaBeta(board, player, ply, \
                        Constants.NEGINF, \
                        Constants.INF, depth), \
           len(rec_table), \
           node_count, table_hits
コード例 #18
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ages_ans_often_fem = []
ages_ans_some_fem = []
ages_ans_often_other = []
ages_ans_some_other = []
ages_ans_often_male = []
ages_ans_some_male = []
survey_answers_ages = []
survey_answers_ages_fem = []
survey_answers_ages_male = []
survey_answers_ages_other = []

with open('TechMentalHealthSurvey.csv', 'r') as csvfile:
    csv_file = csv.reader(csvfile, delimiter=',')  # reads the CSV package file
    list_of_answers = list(csv_file)
    # print(list_of_packages[0][0])
    mhsurvey = HashTable(
    )  # 15 - creates a hashtable object by calling the HashTable class

    Row_IDs = []
    Age = []
    Gender = []
    Country = []
    State = []
    Self_employed = []
    Family_history = []
    Treatment = []
    Work_interference = []
    No_employees = []
    Remote_work = []
    Tech_company = []
    Benefits = []
    Care_options = []
コード例 #19
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 def __init__(self):
     self.symTableIdentifiers = HashTable(17)
     self.symTableConstants = HashTable(17)
コード例 #20
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 def test_init(self):
     ht = HashTable(4)
     assert len(ht.buckets) == 4
     assert ht.length() == 0
コード例 #21
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from hashTable import HashTable

hash_table = HashTable(bucket_count=50)

x = hash_table.insert(50)
y = hash_table.insert(50)

hash_table.insert(20)
print("Number of items in table = ", len(hash_table))

a = hash_table.search(50)
b = hash_table.search(21)
c = hash_table.search(20)
d = hash_table.remove(20)
e = hash_table.search(20)

print(a, b, d, c, e, x, y)
print("Number of items in table = ", len(hash_table))
コード例 #22
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start = datetime.datetime.now()
ht = HT()
for num in nums:
    if ht.contains(num):
        ht.set(num, ht.get(num) + 1)
    else:
        ht.add(num, 1)
for num in set(nums):
    print(ht.get(num))

end = datetime.datetime.now()
print(end - start)

start = datetime.datetime.now()
ht = HashTable()
for num in nums:
    if ht.contains(num):
        ht.set(num, ht.get(num) + 1)
    else:
        ht.add(num, 1)
for num in set(nums):
    print(ht.get(num))

end = datetime.datetime.now()
print(end - start)

start = datetime.datetime.now()
avl = AVLMap()
for num in nums:
    if avl.contains(num):
コード例 #23
0
def main_one():
    with open('WGUPSPackageFile1.csv', 'r') as csvfile:
        csv_file = csv.reader(csvfile, delimiter=',')  # reads the CSV package file
        list_of_packages = list(csv_file)
        # print(list_of_packages[0][0])
        packageHashTable = HashTable()  # 15 - creates a hashtable object by calling the HashTable class

        distances = Distances()
        trucks = Trucks()  # creates truck object by calling Trucks class

        # creates lists of each package attribute

        Package_IDs = []
        Addresses = []
        Cities = []
        States = []
        Zips = []
        Delivery_Deadlines = []
        Weight = []
        Notes = []
        Status = []
        Departure_time = []

        # reads the package csv and creates attributes for each package
        for row in list_of_packages:  # space time complexity is O(N)
            pid = row[0].strip()
            address = row[1]
            city = row[2]
            state = row[3]
            zipcode = row[4]
            deadline = row[5]
            weight = row[6]
            note = row[7]
            status = row[8]
            departure_time = row[9]

            # appends each value to respective lists
            Package_IDs.append(pid)
            Addresses.append(address)
            Cities.append(city)
            States.append(state)
            Zips.append(zipcode)
            Delivery_Deadlines.append(deadline)
            Weight.append(weight)
            Notes.append(note)
            Status.append(status)
            Departure_time.append(departure_time)

            p = package.Package(pid, address, city, state, zipcode, deadline,
                                weight, note)  # creates the package object using the package class

            packageHashTable.get(pid)  # look up the package by the id
            packageHashTable.insert(pid, p)  # inserts the packages into the hashtable

        # gets the package object using the ids using the hashtable and creates package objects for each
        p1 = packageHashTable.get('1')
        p5 = packageHashTable.get('5')
        p7 = packageHashTable.get('7')
        p8 = packageHashTable.get('8')
        p10 = packageHashTable.get('10')
        p11 = packageHashTable.get('11')
        p12 = packageHashTable.get('12')
        p13 = packageHashTable.get('13')
        p14 = packageHashTable.get('14')
        p15 = packageHashTable.get('15')
        p16 = packageHashTable.get('16')
        p19 = packageHashTable.get('19')
        p20 = packageHashTable.get('20')
        p29 = packageHashTable.get('29')
        p30 = packageHashTable.get('30')
        p34 = packageHashTable.get('34')
        p37 = packageHashTable.get('37')
        p3 = packageHashTable.get('3')
        p6 = packageHashTable.get('6')
        p18 = packageHashTable.get('18')
        p25 = packageHashTable.get('25')
        p26 = packageHashTable.get('26')
        p31 = packageHashTable.get('31')
        p36 = packageHashTable.get('36')
        p38 = packageHashTable.get('38')
        p40 = packageHashTable.get('40')
        p2 = packageHashTable.get('2')
        p4 = packageHashTable.get('4')
        p9 = packageHashTable.get('9')
        p17 = packageHashTable.get('17')
        p21 = packageHashTable.get('21')
        p22 = packageHashTable.get('22')
        p23 = packageHashTable.get('23')
        p24 = packageHashTable.get('24')
        p27 = packageHashTable.get('27')
        p28 = packageHashTable.get('28')
        p32 = packageHashTable.get('32')
        p33 = packageHashTable.get('33')
        p35 = packageHashTable.get('35')
        p39 = packageHashTable.get('39')
        # p37.status = 'At Hub'
        # print(p37)
        firstTruckTripPackages = [p1, p7, p8, p10, p11, p12, p13, p14, p15, p16, p19, p20, p29, p30, p34, p37]
        # print(p1.pid)
        # puts the packages into the first truck
        # print(packageHashTable.update_status('1', 'At HUB'))

        firstTruckTripPAddresses = []
        for item in firstTruckTripPackages:
            firstTruckTripPackageA = item.address
            firstTruckTripPAddresses.append(firstTruckTripPackageA)
            # creates a list of addresses of each package in the first truck
            # space time complexity of O(N)

        secondTruckTripPackages = [p3, p6, p18, p25, p26, p31, p36, p38, p40]
        # puts the package object into the second truck

        secondTruckTripPAddresses = []
        for item in secondTruckTripPackages:
            secondTruckTripPackageA = item.address
            secondTruckTripPAddresses.append(secondTruckTripPackageA)
            # creates a list of addresses of each package in the second truck
            # space time complexity of O(N)

        thirdTruckTripPackages = [p2, p4, p5, p9, p17, p21, p22, p23, p24, p27, p28, p32, p33, p35, p39]
        # puts the package object into the third truck

        thirdTruckTripPAddresses = []
        for item in thirdTruckTripPackages:
            firstTruckSecondTripPackageA = item.address
            thirdTruckTripPAddresses.append(firstTruckSecondTripPackageA)
            # creates a list of addresses of each package in the second truck
            # space time complexity of O(N)

        first_location = 'HUB'

        # creates list of addresses from the optimized list of addresses from truck 1
        first_truck_delivery = trucks.shortest_distance_calculation_truck1_addresses(
            firstTruckTripPAddresses, firstTruckTripPackages, first_location)

        # creates list of addresses from the optimized list of addresses from truck 2
        second_truck_delivery = trucks.shortest_distance_calculation_truck2_addresses(
            secondTruckTripPAddresses, secondTruckTripPackages, first_location)

        # creates list of addresses from the optimized list of addresses from truck 3
        third_truck_delivery = trucks.shortest_distance_calculation_truck3_addresses(
            thirdTruckTripPAddresses, thirdTruckTripPackages, first_location)

    # lines 166-168 update each package departure time
    trucks.update_package_departure_from_hub_time_first_truck(firstTruckTripPackages)
    trucks.update_package_departure_from_hub_time_second_truck(secondTruckTripPackages)
    trucks.update_package_departure_from_hub_time_third_truck(thirdTruckTripPackages)

    # lines 167-169 update each package delivery time to the time they are delivered
    trucks.update_package_delivery_time_first_truck(first_truck_delivery, firstTruckTripPackages, 'HUB')
    trucks.update_package_delivery_time_second_truck(second_truck_delivery, secondTruckTripPackages, 'HUB')
    trucks.update_package_delivery_time_third_truck(third_truck_delivery, thirdTruckTripPackages, 'HUB')

    # for item in firstTruckTripPackages:
    #     print(item.pid)
    #     print(item.departure_time)
    #     print(item.delivery_time)
    # print('\n')
    #
    #
    # for item2 in secondTruckTripPackages:
    #     print(item2.pid)
    #     print(item2.departure_time)
    #     print(item2.delivery_time)
    # print('\n')
    #
    # for item3 in thirdTruckTripPackages:
    #     print(item3.pid)
    #     print(item3.departure_time)
    #     print(item3.delivery_time)
    # print('\n')

    print('Hello, welcome to the portal of the Western Governors University Parcel Service!')
    print('Below is the total miles traveled in by each truck delivery:')
    first_truck_miles = trucks.calculate_total_distance_traveled_per_truck(first_truck_delivery, 'HUB')
    print('First truck miles: ', first_truck_miles)
    second_truck_miles = trucks.calculate_total_distance_traveled_per_truck(second_truck_delivery, 'HUB')
    print('Second truck miles: ', second_truck_miles)
    third_truck_miles = trucks.calculate_total_distance_traveled_per_truck(third_truck_delivery, 'HUB')
    print('Third truck miles: ', third_truck_miles)
    print('Total miles: ', first_truck_miles + second_truck_miles + third_truck_miles)


    first_input = input("Please enter 'get' or 'status' to get started. 'Get' will return package information and "
                        "'status' will return status information for a certain time: ")
    # space time complexity O(N^2)
    while first_input is not 'exit':
        if first_input == 'get':
            p = input("Please enter package ID: ")
            for package_id_input in firstTruckTripPackages:  # gets package information from each package in truck 1
                if package_id_input.pid == p:
                    departure_time = package_id_input.departure_time
                    delivery_time = package_id_input.delivery_time
                    user_input_time = input("please enter a time in the 'HH:MM:SS' format: ")
                    convert_user_input_time = datetime.strptime(user_input_time, '%H:%M:%S')
                    if departure_time >= convert_user_input_time:  # checks if package is at hub and then sets
                        # value in hashtable
                        package_id_input.status = 'At HUB'
                        print('Package ID: ', package_id_input.pid, 'Address: ', package_id_input.address, 'City: ',
                              package_id_input.city, 'State: ', package_id_input.state, 'Zipcode: ',
                              package_id_input.zip_code,
                              'Deadline: ', package_id_input.deadline, 'Weight: ', package_id_input.weight, 'Notes: ',
                              package_id_input.note, 'Status: ', package_id_input.status, 'Departure Time: ',
                              package_id_input.departure_time, 'Delivery Time: ', package_id_input.delivery_time)
                    elif departure_time <= convert_user_input_time:  # checks if package is in transit
                        # then sets in hashtable
                        if convert_user_input_time < delivery_time:
                            package_id_input.status = 'In transit'
                            print('Package ID: ', package_id_input.pid, 'Address: ', package_id_input.address, 'City: ',
                                  package_id_input.city, 'State: ', package_id_input.state, 'Zipcode: ',
                                  package_id_input.zip_code,
                                  'Deadline: ', package_id_input.deadline, 'Weight: ', package_id_input.weight,
                                  'Notes: ',
                                  package_id_input.note, 'Status: ', package_id_input.status, 'Departure Time: ',
                                  package_id_input.departure_time, 'Delivery Time: ', package_id_input.delivery_time)
                        else:  # checks if package is delivered and then sets value in hashtable
                            package_id_input.status = 'Delivered'
                            print('Package ID: ', package_id_input.pid, 'Address: ', package_id_input.address, 'City: ',
                                  package_id_input.city, 'State: ', package_id_input.state, 'Zipcode: ',
                                  package_id_input.zip_code,
                                  'Deadline: ', package_id_input.deadline, 'Weight: ', package_id_input.weight,
                                  'Notes: ',
                                  package_id_input.note, 'Status: ', package_id_input.status, 'Departure Time: ',
                                  package_id_input.departure_time, 'Delivery Time: ', package_id_input.delivery_time)
            for package_id_input in secondTruckTripPackages:  # gets package information from each package in truck 2
                if package_id_input.pid == p:
                    departure_time = package_id_input.departure_time
                    delivery_time = package_id_input.delivery_time
                    user_input_time = input("please enter a time in the 'HH:MM:SS' format: ")
                    convert_user_input_time = datetime.strptime(user_input_time, '%H:%M:%S')
                    if departure_time >= convert_user_input_time:
                        package_id_input.status = 'At HUB'
                        print('Package ID: ', package_id_input.pid, 'Address: ', package_id_input.address, 'City: ',
                              package_id_input.city, 'State: ', package_id_input.state, 'Zipcode: ',
                              package_id_input.zip_code,
                              'Deadline: ', package_id_input.deadline, 'Weight: ', package_id_input.weight, 'Notes: ',
                              package_id_input.note, 'Status: ', package_id_input.status, 'Departure Time: ',
                              package_id_input.departure_time, 'Delivery Time: ', package_id_input.delivery_time)
                    elif departure_time <= convert_user_input_time:
                        if convert_user_input_time < delivery_time:
                            package_id_input.status = 'In transit'
                            print('Package ID: ', package_id_input.pid, 'Address: ', package_id_input.address, 'City: ',
                                  package_id_input.city, 'State: ', package_id_input.state, 'Zipcode: ',
                                  package_id_input.zip_code,
                                  'Deadline: ', package_id_input.deadline, 'Weight: ', package_id_input.weight,
                                  'Notes: ',
                                  package_id_input.note, 'Status: ', package_id_input.status, 'Departure Time: ',
                                  package_id_input.departure_time, 'Delivery Time: ', package_id_input.delivery_time)
                        else:
                            package_id_input.status = 'Delivered'
                            print('Package ID: ', package_id_input.pid, 'Address: ', package_id_input.address, 'City: ',
                                  package_id_input.city, 'State: ', package_id_input.state, 'Zipcode: ',
                                  package_id_input.zip_code,
                                  'Deadline: ', package_id_input.deadline, 'Weight: ', package_id_input.weight,
                                  'Notes: ',
                                  package_id_input.note, 'Status: ', package_id_input.status, 'Departure Time: ',
                                  package_id_input.departure_time, 'Delivery Time: ', package_id_input.delivery_time)
            for package_id_input in thirdTruckTripPackages:  # gets package information from each package in truck 3
                if package_id_input.pid == p:
                    departure_time = package_id_input.departure_time
                    delivery_time = package_id_input.delivery_time
                    user_input_time = input("please enter a time in the 'HH:MM:SS' format: ")
                    convert_user_input_time = datetime.strptime(user_input_time, '%H:%M:%S')
                    if departure_time >= convert_user_input_time:  # checks if package is at the hub
                        package_id_input.status = 'At HUB'
                        print('Package ID: ', package_id_input.pid, 'Address: ', package_id_input.address, 'City: ',
                              package_id_input.city, 'State: ', package_id_input.state, 'Zipcode: ',
                              package_id_input.zip_code,
                              'Deadline: ', package_id_input.deadline, 'Weight: ', package_id_input.weight, 'Notes: ',
                              package_id_input.note, 'Status: ', package_id_input.status, 'Departure Time: ',
                              package_id_input.departure_time, 'Delivery Time: ', package_id_input.delivery_time)
                    elif departure_time <= convert_user_input_time:  # checks if package is in transit or delivered
                        if convert_user_input_time < delivery_time:
                            package_id_input.status = 'In transit'
                            print('Package ID: ', package_id_input.pid, 'Address: ', package_id_input.address, 'City: ',
                                  package_id_input.city, 'State: ', package_id_input.state, 'Zipcode: ',
                                  package_id_input.zip_code,
                                  'Deadline: ', package_id_input.deadline, 'Weight: ', package_id_input.weight,
                                  'Notes: ',
                                  package_id_input.note, 'Status: ', package_id_input.status, 'Departure Time: ',
                                  package_id_input.departure_time, 'Delivery Time: ', package_id_input.delivery_time)
                        else:
                            package_id_input.status = 'Delivered'
                            print('Package ID: ', package_id_input.pid, 'Address: ', package_id_input.address, 'City: ',
                                  package_id_input.city, 'State: ', package_id_input.state, 'Zipcode: ',
                                  package_id_input.zip_code,
                                  'Deadline: ', package_id_input.deadline, 'Weight: ', package_id_input.weight,
                                  'Notes: ',
                                  package_id_input.note, 'Status: ', package_id_input.status, 'Departure Time: ',
                                  package_id_input.departure_time, 'Delivery Time: ', package_id_input.delivery_time)
        # checks the status of each package in all three trucks
        elif first_input == 'status':
            user_input_input_time = input("Please enter starting time in 'HH:MM:SS' format: ")
            convert_user_input_time = datetime.strptime(user_input_input_time,
                                                        '%H:%M:%S')  # converts time inputted to datetime
            for p in firstTruckTripPackages:  # checks status of the first truck
                departure_time = p.departure_time
                delivery_time = p.delivery_time
                if departure_time >= convert_user_input_time:  # checks if package is at the HUB
                    p.status = 'At HUB'
                    print('Package ID: ', p.pid, 'Status: ', p.status)
                elif delivery_time <= convert_user_input_time:  # checks if package has been delivered
                    p.status = 'Delivered'
                    print('Package ID: ', p.pid, 'Status: ', p.status)
                elif departure_time <= convert_user_input_time < delivery_time:  # checks if package is in transit
                    p.status = 'In transit'
                    print('Package ID: ', p.pid, 'Status: ', p.status)
            for p in secondTruckTripPackages:  # checks status of the second truck
                departure_time = p.departure_time
                delivery_time = p.delivery_time
                if departure_time >= convert_user_input_time:  # checks if package is at the hub
                    p.status = 'At HUB'
                    print('Package ID: ', p.pid, 'Status: ', p.status)
                elif delivery_time <= convert_user_input_time:  # checks if package has been delivered
                    p.status = 'Delivered'
                    print('Package ID: ', p.pid, 'Status: ', p.status)
                elif departure_time <= convert_user_input_time < delivery_time:  # checks if package is in transit
                    p.status = 'In transit'
                    print('Package ID: ', p.pid, 'Status: ', p.status)
            for p in thirdTruckTripPackages:  # checks status of third truck
                departure_time = p.departure_time
                delivery_time = p.delivery_time
                if departure_time >= convert_user_input_time:  # checks if package is at the hub
                    p.status = 'At HUB'
                    print('Package ID: ', p.pid, 'Status: ', p.status)
                elif delivery_time <= convert_user_input_time:  # checks if package has been delivered
                    p.status = 'Delivered'
                    print('Package ID: ', p.pid, 'Status: ', p.status)
                elif departure_time <= convert_user_input_time < delivery_time:  # checks if package is in transit
                    p.status = 'In transit'
                    print('Package ID: ', p.pid, 'Status: ', p.status)
        elif first_input == 'exit':
            exit()
コード例 #24
0
from hashTable import HashTable

tab = HashTable()

tab["Hello"] = "Hello1"
tab["Hello"] = "Hello2"
tab["World"] = "World"

print(tab["Hello"])
print(tab["World"])

print("\n\nKey-Value Pairs:")
for k,v in tab.items():
    print(k,v)

print("\n\nKeys:")
for i in tab.keys():
    print(i)

print("\n\nValues:")
for i in tab:
    print(i)


コード例 #25
0
from dynamicArray import DynamicArray
from FileIo import FileIo
from hashTable import HashTable

print("Hashing Function 2")
arr = DynamicArray()
F = FileIo(filename="Customer.csv")
table = HashTable(table=arr)
F.file_io_chaining2(table)
j = 0
print("%4s" % "No.", end=" ")
print("%17s" % "Customer Id", end=" ")
print("%14s" % "First Name", end="  ")
print("%9s" % "Last Name")
for i in range(len(table.table.array)):
    if table.table.array[i] is None:
        j += 1
    if table.table.array[i] is not None:
        linkedlist = table.get_hashed(i)
        a = "[" + str(linkedlist.key) + "]"
        print("%4s" % a, end=" ")
        print("%17s" % linkedlist.head.data.customer_id, end=" ")
        print("%14s" % linkedlist.head.data.first_name, end="  ")
        print("%9s" % linkedlist.head.data.last_name, end=" ")
        if table.table.array[i].GetLength() > 1:
            start = linkedlist.head.next
            while start is not None:
                print("%17s" % start.data.customer_id, end=" ")
                print("%14s" % start.data.first_name, end="  ")
                print("%9s" % start.data.last_name, end="  ")
                start = start.next
コード例 #26
0
def minimax(board, player, ply, depth):
    """
    Minimax algorithm.
    :param board: the board that minimax is performed on;
    :param player: the player whose turn it is;
    :param ply: the turn number;
    :return value: value of the game.
    """

    rec_table = HashTable()
    node_count = 0
    table_hits = 0

    ### Internal function begins
    def do_minimax(board, player, ply, depth):
        """
        For memoization.
        """
        # Stats:
        nonlocal node_count
        nonlocal table_hits
        node_count += 1

        # Transposition:
        board_hash = board.encode()
        if USE_TRANSPOSITION and board_hash in rec_table and\
                depth <= rec_table[board_hash][1]:
            table_hits += 1
            return rec_table[board_hash][0]

        # evaluate board
        b_eval = Evaluate(board)

        if b_eval.utility(ply) != Constants.NON_TERMINAL:  # End game
            ret = b_eval.utility(ply)
        elif depth <= 0:  # max search depth hit
            ret = b_eval.evaluation()
        else:  # recursive case
            successors = board.successors(player)

            # No successors is a draw
            if len(successors) <= 0:
                ret = Constants.DRAW
            elif player == Constants.MAX:
                best_value = Constants.NEGINF
                for succ in successors:
                    v = do_minimax(succ, Constants.MIN, ply + 1, depth - 1)
                    best_value = max(best_value, v)
                ret = best_value
            else:  # if player is minimizer
                best_value = Constants.INF
                for succ in successors:
                    v = do_minimax(succ, Constants.MAX, ply + 1, depth - 1)
                    best_value = min(best_value, v)
                ret = best_value

        # Transposition:
        if USE_TRANSPOSITION:
            rec_table[board_hash] = (ret, depth)
        return ret

    ### Internal function ends

    return do_minimax(board, player, ply, depth), \
           len(rec_table), \
           node_count, table_hits
コード例 #27
0
 def __init__(self):
     self.symTable = HashTable(40)
コード例 #28
0
    i = 0
    noise = re.search('[^ATCG]', entry[0:25])
    while noise != None and i < len(entry) - 24:
        i = noise.span()[1]
        noise = re.search('[^ATCG]', entry[i:i + 25])
    return i


def evaluateLine(line, entry):
    if line.startswith('>'):
        count25mers(entry)
        return ''
    else:
        return entry + line.replace('\n', '')


try:
    hashtable = HashTable()
    filename = sys.argv[1]
    file = open(filename)
    entry = ''
    for line in file:
        entry = evaluateLine(line, entry)
    file.close()
    count25mers(entry)
except Exception as e:
    print(e)
finally:
    print('Distinct 25-mers: ' + str(hashtable.size))
    print('Total 25-mers: ' + str(hashtable.total))
    print('Highest count: ' + hashtable.mostCommon)