Ejemplo n.º 1
0
    def __init__(self, file):
        with open(file, "r") as f:
            self.cash, self.height, self.width = [int(x) for x in f.readline().split(" ")]
            self.waves = SinglyList()
            self.waves_num = 0
            for line in iter(f.readline, ""):
                self.waves.add_head(Wave(*[int(x) for x in line.split(" ")]))
                self.waves_num += 1
        self.game_over = False
        self.turn_number = 0
        self.non_plants = 0

        self.deck = Stack()

        for i in range(100):
            self.deck.push(random.randint(1, 5))

        self.board = [] #SinglyList Next points to the next array.
                        #Data points to the list that stores the queues

        for i in range(self.height):
            self.board.append([]) #;
            for z in range(self.width):
                self.board[i].append(Queue())
                print(self.board[i][z])
Ejemplo n.º 2
0
def train(size, parity):
    out = SinglyList()
    if parity == 0:
        size = 2 * int(size / 2)
    elif size % 2 == 0:
        size -= 1
    for x in range(size, 0, -2):
        out.add_tail(out.head, x)
    return out
Ejemplo n.º 3
0
def merge(train1, train2):
    list_head = SinglyList()
    list_head.add_head(Node("Test"))
    node = list_head.head
    num = 0
    while train1 is not None or train2 is not None:
        if num % 2 == 0:
            node.next = train1
            train1 = train1.next
        else:
            node.next = train2
            train2 = train2.next
        node = node.next
        num += 1
    return list_head
Ejemplo n.º 4
0
def merge(train1, train2):
    list_head = SinglyList()
    list_head.add_head(train1)
    train1 = train1.next
    node = list_head.head
    num = 1
    while train1 is not None or train2 is not None:
        if num % 2 == 0 and train1 is not None:
            node.next = train1
            train1 = train1.next
        elif train2 is not None:
            node.next = train2
            train2 = train2.next
        node = node.next
        num += 1
    return list_head
Ejemplo n.º 5
0
class Game():
    def __init__(self, file):
        with open(file, "r") as f:
            self.cash, self.height, self.width = [int(x) for x in f.readline().split(" ")]
            self.waves = SinglyList()
            self.waves_num = 0
            for line in iter(f.readline, ""):
                self.waves.add_head(Wave(*[int(x) for x in line.split(" ")]))
                self.waves_num += 1
        self.game_over = False
        self.turn_number = 0
        self.non_plants = 0

        self.deck = Stack()

        for i in range(100):
            self.deck.push(random.randint(1, 5))

        self.board = [] #SinglyList Next points to the next array.
                        #Data points to the list that stores the queues

        for i in range(self.height):
            self.board.append([]) #;
            for z in range(self.width):
                self.board[i].append(Queue())
                print(self.board[i][z])

    def draw(self):
        print("Cash: $", self.cash, "\nWaves: ", self.waves_num, sep = "")
        s = " ".join([str(i) for i in range(self.width - 1)])
        print(" ", s)
        for row in range(self.height):
            s = []
            for col in range(self.width):
                if self.is_plant(row, col):
                    char = "P"
                elif self.is_nonplant(row, col):
                    size = self.board[row][col].size()
                    char = str(size) if size < 10 else "#"
                else:
                    char = "."
                s.append(char)
            print(row, " ", " ".join(s), "\n", sep="")
        print()

    def is_nonplant(self, row, col):
        print(self.board[row][col].isEmpty())
        if type(self.board[row][col].front()) == Non_Plant:
            return True
        else:
            False

    def is_plant(self, row, col):
        if type(self.board[row][col]) == Plant:
            return True
        else:
            False

    def remove(self, row, col):
        print("Total amount of non_plants", self.non_plants)
        print("cash before removal", self.cash)
        if self.is_nonplant(row, col) == True:
            self.non_plants -= 1
        self.cash += self.board[row][col].front().worth

        #else:
        #    self.cash += 35
        print("cash after removal", self.cash)
        self.board[row][col].dequeue()
        print("Total amount of non_plants", self.non_plants)


    def place_nonplant(self, row):
        nplant = Non_Plant()
        self.board[row][self.width - 1].enqueue(nplant)
        self.non_plants += 1

    def place_plant(self, row, col):
        if col != self.width - 1 and self.is_nonplant(row, col) == False and self.is_plant(row, col) == False:
            plant = Plant()
            self.board.item[row][col].enqueue(plant)
            self.cash -= Plant.cost
Ejemplo n.º 6
0
from singly_list import SinglyList, Node
from print_list import print_list


def add_tail(list_head, val):
    node = list_head
    if not isinstance(list_head, Node):
        print("This is not Node!")
        return
    while node.next is not None:
        node = node.next
    node.next = Node(val)


if __name__ == '__main__':
    s_list = SinglyList()
    a = Node(-1)
    s_list.add_head(a)

    # node = s_list.head
    # for i in range(10):
    #     node.next = Node(i)
    #     node = node.next

    node = s_list.head
    b = Node(5)
    c = Node(8)
    d = Node(7)
    a.next = b
    b.next = c
    c.next = d
Ejemplo n.º 7
0
from singly_list import SinglyList
from node import Node

disList = SinglyList()
theFirstNode = Node("The First Node")
theLastNode = Node("The Last Node")

theLastNode.next = theFirstNode

disList.add_head(theLastNode)
for i in range(1,10):
    disList.add_head(Node(i))

disList.add_head(theFirstNode)
'''
#00 Test
PrintList.print_list(disList.head)
disList.add_head(Node("lmao"))
PrintList.print_list(None)
PrintList.print_list(disList.head)

#01 Test
PrintList.print_list(disList.head)
PrintList.add_tail(disList.head, 10)
PrintList.print_list(disList.head)

#02 Test
SinglyList.print_list(disList.head)
disList.remove([self], list_head=something, val=4)
disList.remove(4)
SinglyList.print_list(disList.head)
Ejemplo n.º 8
0
from node import Node
from singly_list import SinglyList
from print_list import print_list
from remove import remove
from sort_asc import sort_asc

alist = SinglyList()

node0 = Node(1)
node1 = Node(5)

node0.next = node1

anode0 = Node(2)
anode1 = Node(3)

node1.next = anode0
anode0.next = anode1
anode1.next = None

alist.add_head(node0)

sort_asc(alist)

print_list(alist)
Ejemplo n.º 9
0
from has_cycle import has_cycle
from node import Node
from singly_list import SinglyList

list = SinglyList()
#list.add_head(Node("f"))

node0 = Node("a")

node1 = Node("b")
node0.next = node1

#node1.next = node0
node1.next = None

list.add_head(node1)
list_head = list.head

print(has_cycle(list_head))
Ejemplo n.º 10
0
from singly_list import SinglyList
from node import Node
import random

trainWon = SinglyList()
trainToo = SinglyList()

for i in range(1, 10):
    if random.random() > 0.9:
        trainWon.add_head(Node(i))
    else:
        trainToo.add_head(Node(i))
'''
#00 Test
PrintList.print_list(disList.head)
disList.add_head(Node("lmao"))
PrintList.print_list(None)
PrintList.print_list(disList.head)

#01 Test
PrintList.print_list(disList.head)
PrintList.add_tail(disList.head, 10)
PrintList.print_list(disList.head)

#02 Test
SinglyList.print_list(disList.head)
disList.remove(disList.head, 4)
SinglyList.print_list(disList.head)

#03 Test
print(SinglyList.has_cycle(disList.head))
Ejemplo n.º 11
0
from singly_list import SinglyList
from node import Node
import random

disList = SinglyList()

for i in range(10):
    disList.add_head(Node(random.randint(1,100)))

'''
#00 Test
PrintList.print_list(disList.head)
disList.add_head(Node("lmao"))
PrintList.print_list(None)
PrintList.print_list(disList.head)

#01 Test
PrintList.print_list(disList.head)
PrintList.add_tail(disList.head, 10)
PrintList.print_list(disList.head)

#02 Test
SinglyList.print_list(disList.head)
disList.remove(disList.head, 4)
SinglyList.print_list(disList.head)

#03 Test
print(SinglyList.has_cycle(disList.head))

#04 Test
SinglyList.print_list(trainWon.head)
Ejemplo n.º 12
0
def main():
    trainWon = SinglyList()
    trainToo = SinglyList()

    for i in range(10):
        trainWon.add_head(Node(random.randint(1, 100)))

    for i in range(10):
        trainToo.add_head(Node(random.randint(1, 100)))
    '''
    #00 Test
    PrintList.print_list(disList.head)
    disList.add_head(Node("lmao"))
    PrintList.print_list(None)
    PrintList.print_list(disList.head)

    #01 Test
    PrintList.print_list(disList.head)
    PrintList.add_tail(disList.head, 10)
    PrintList.print_list(disList.head)

    #02 Test
    SinglyList.print_list(disList.head)
    disList.remove(disList.head, 4)
    SinglyList.print_list(disList.head)

    #03 Test
    print(SinglyList.has_cycle(disList.head))

    #04 Test
    SinglyList.print_list(trainWon.head)
    SinglyList.print_list(trainToo.head)
    SinglyList.print_list(SinglyList.merge(trainWon.head, trainToo.head))

    #05 Test
    SinglyList.print_list(disList.head)
    disList.sort_dsc(disList.head)
    SinglyList.print_list(disList.head)
    '''
    #06 "Test"
    SinglyList.print_list(trainWon.head)
    SinglyList.print_list(trainToo.head)
    trainWon.sort_dsc(trainWon.head)
    trainToo.sort_dsc(trainToo.head)
    SinglyList.print_list(SinglyList.merge(trainWon.head, trainToo.head))
Ejemplo n.º 13
0
from node import Node
from singly_list import SinglyList
from print_list import print_list
from sort_asc import sort_asc
from merge import merge
from random import randint

def merge_n_sort(train1, train2):
    n = merge(train1, train2)
    sort_asc(n)
    return n 

l1 = SinglyList()
l1.add_head(Node(-1))
node = l1.head

for i in range(50):
    new = Node(randint(0, 100))
    node.n = new
    node = node.n

l2 = SinglyList()
l2.add_head(Node(-1))
node = l2.head

for i in range(50):
    new = Node(randint(0, 100))
    node.n = new
    node = node.n

print_list(merge_n_sort(l1.head, l2.head))
Ejemplo n.º 14
0
from singly_list import SinglyList
from random import randint


def train(size, parity):
    out = SinglyList()
    if parity == 0:
        size = 2 * int(size / 2)
    elif size % 2 == 0:
        size -= 1
    for x in range(size, 0, -2):
        out.add_tail(out.head, x)
    return out


list_a = SinglyList()
[list_a.add_tail(list_a.head, x) for x in range(8, 3, -1)]
list_a.remove(list_a.head, 6)
list_a.print_list(list_a.head)
print('Cycle? ', end='')
print('yes' if list_a.has_cycle(list_a.head) else 'no')
tail = list_a.head
while tail.next:
    tail = tail.next
tail.next = list_a.head
print('Cycle? ', end='')
print('yes' if list_a.has_cycle(list_a.head) else 'no')
tail.next = None
list_a = train(10, 0)
list_b = train(10, 1)
print('Merge:')
Ejemplo n.º 15
0
from random import randint, getrandbits
from singly_list import SinglyList

def yard(alice, bob):
	cars = sorted([car for car in alice] + [car for car in bob])
	return cars

if __name__ == '__main__':
	alice = []
	bob = []
	for x in range(randint(10, 15)):
		who = alice if getrandbits(1) else bob
		who.append(randint(1,20))
	print("Alice:", alice, sep=' ')
	print("Bob:", bob, sep=' ')
	carol = SinglyList()
	dave = SinglyList()
	[carol.add_tail(carol.h, x) for x in alice + bob]
	carol.sort()
	while carol.size() > 2:
		dave.add_tail(dave.h, carol.h)
		carol.remove(carol.h, carol.h)
	print("Carol:", carol, sep=' ')
	print("Dave:", dave, sep=' ')
	
Ejemplo n.º 16
0
from node import Node
from singly_list import SinglyList
from print_list import print_list
from add_tail import add_tail

list = SinglyList()
list.add_head(Node("a"))
list.add_head(Node("b"))
list.add_head(Node("c"))
#list.add_head(Node("d"))
#list.add_head(Node("e"))
#list.add_head(Node("f"))
#list.add_head(Node("g"))
add_tail(list.head, "1")

print_list(list.head)
Ejemplo n.º 17
0
from singly_list import SinglyList
from node import Node
from print_list import PrintList


disList = SinglyList()
for i in range(0):
    disList.add_head(Node(i))
'''
#00 Test
PrintList.print_list(disList.head)
disList.add_head(Node("lmao"))
PrintList.print_list(None)
PrintList.print_list(disList.head)
'''
#01 Test
PrintList.print_list(disList.head)
PrintList.add_tail(disList.head, 10)
PrintList.print_list(disList.head)
Ejemplo n.º 18
0
from sort_asc import sort_asc


def merge(train1, train2):
    node1 = train1
    node2 = train2
    if not isinstance(train1, Node) or not isinstance(train2, Node):
        print("This is not Node!")
        return
    while node1.next != None:
        node1 = node1.next
    node1.next = node2
    return train1


s_list1 = SinglyList()
a = Node(0)
s_list1.add_head(a)

node = s_list1.head
b = Node(5)
c = Node(8)
d = Node(7)
a.next = b
b.next = c
c.next = d

s_list2 = SinglyList()
x = Node(10)
s_list2.add_head(x)
Ejemplo n.º 19
0
from singly_list import SinglyList
from node import Node

disList = SinglyList()

disList.add_head(Node(4))
for i in range(1,10):
    disList.add_head(Node(i))

disList.add_head(Node(4))
disList.add_head(Node(5))
disList.add_head(Node(8))
disList.add_head(Node(4))
'''
#00 Test
PrintList.print_list(disList.head)
disList.add_head(Node("lmao"))
PrintList.print_list(None)
PrintList.print_list(disList.head)

#01 Test
PrintList.print_list(disList.head)
PrintList.add_tail(disList.head, 10)
PrintList.print_list(disList.head)
'''
#02 Test
SinglyList.print_list(disList.head)
disList.remove(disList.head, 4)
SinglyList.print_list(disList.head)
Ejemplo n.º 20
0
from node import Node
from merge import merge
from singly_list import SinglyList
from print_list import print_list
from remove import remove

list = SinglyList()

node0 = Node(1)
node1 = Node(5)

node0.next = node1
node1.next = None

anode0 = Node(2)
anode1 = Node(3)

anode0.next = anode1
anode1.next = None

print_list(merge(node0, anode0))