示例#1
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    def test_2_2(self):
        mylist = UnorderedList()
        numbers = [31, 77, 17, 93, 26, 54]
        for number in numbers:
            mylist.add(number)

        # The linked list should contain 6 items overall
        self.assertEqual(mylist.size(), 6)

        # Let n equal 3 as we want the node at indice 3 which
        # will enable us to reach through to the last node in the list.
        newNode = mylist.findFromNth(3)
        self.assertEqual(newNode.getData(), 93)

        # Test that we can request the first item in the list
        newNode = mylist.findFromNth(0)
        self.assertEqual(newNode.getData(), 31)

        # Test that we can request the last item in the list
        newNode = mylist.findFromNth(mylist.size() - 1)
        self.assertEqual(newNode.getData(), 54)

        # Test that we can't request something by passing in a non-existent indice
        newNode = mylist.findFromNth(7)
        self.assertEqual(newNode.getData(), None)
示例#2
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def unorderedListPopTest():
	print("pop")
	# ol = UnorderedList()
	# ol.append(1)
	# ol.append(2)
	# ol.add(-1)
	# while not ol.isEmpty():
	# 	print(ol.pop())
	# printList(ol)

	ol = UnorderedList()
	ol.append('A')
	ol.pop(0)
	printList(ol)
示例#3
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def unorderedListInsertTest():
	ol = UnorderedList()
	ol.insert(0, 'G')
	printList(ol)
	ol.append('A')
	ol.append('B')
	ol.append('C')
	ol.append('E')
	ol.insert(3, 'D')
	ol.insert(0, 'F')
	printList(ol)
class StackLinkedList:
    def __init__(self):
        '''Stack()创建一个新的空栈。不需要参数,并返回一个空栈'''
        self.items = UnorderedList()

    def push(self, item):
        '''Push(item)将新项添加到堆栈的顶部。它需要参数 item 并且没有返回值'''
        self.items.add(item)

    def pop(self):
        '''pop()从栈顶删除项目。它不需要参数,返回 item。栈被修改'''
        return self.items.pop()

    def peek(self):
        """返回栈顶的项,不删除它。它不需要参数。堆栈不被修改。"""
        return self.items.index(0)

    def isEmpty(self):
        """测试看栈是否为空。它不需要参数,返回一个布尔值。"""
        return self.items.isEmpty()

    def size(self):
        """返回栈的项目数。它不需要参数,返回一个整数。"""
        return self.items.size()

    def __str__(self):
        return str(self.items)
示例#5
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    def test_2_6(self):
        mylist = UnorderedList()
        # Purposely add in additional letters
        letters = ['a', 'b', 'c', 'd', 'e', 'f', 'g', 'h']
        for letter in letters:
            mylist.add(letter)

        # Purposely create an endless loop by changing the next node after 'e' to be 'c'
        mylist.change_next('e', 'c')

        # Test that c is in fact at the head of the loop
        self.assertEqual(mylist.find_loop_head(), 'c')
示例#6
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def unorderedListAppendTest():
	ol = UnorderedList()
	print("append")
	printList(ol)
	ol = UnorderedList()
	ol.append('B')
	ol.append('C')
	ol.append('B')
	printList(ol)
def main():

    myList = UnorderedList()

    for i in xrange(NUM):

        value = random.randint(1, 100)

        myList.add(value)

    print "\n\nPrinting in List...\n"
    myList.traversal()

    print "\n\nPrinting in Reverse...\n"
    printReverse(myList.head)

    return
示例#8
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 def size(self):
     return UnorderedList.size(self)
示例#9
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 def remove(self,item):
     return UnorderedList.remove(self,item)
# 3.9.1 The Node Class

from node import Node
temp = Node(93)
temp.get_data()

from unorderedList import UnorderedList
my_list = UnorderedList()
my_list.add(31)
my_list.add(77)
my_list.add(17)
my_list.add(93)
my_list.add(26)
my_list.add(54)

my_list.search(17)
my_list.remove(17)
my_list.search(17)
'''
This is a program that Classifies Processor Jobs.
Description: This programs takes a list of CPU instructions and classifies them according to their lengths.
Author: Marc Batete
'''
import random
from ListNode import Node
from unorderedList import UnorderedList

fp = open("processor_jobs.dat", "r")
short_jobs = UnorderedList()
medium_jobs = UnorderedList()
long_jobs = UnorderedList()
while True:
    line = fp.readline()
    if line == "":
        break
    line = line.strip()
    word = line.split()

    value = word[0]
    if value < 200:
        short_jobs.add(value)
    elif value > 200 and value < 1000:
        medium_jobs.add(value)
    else:
        long_jobs.add(value)
short_jobs.traversal()
medium_jobs.traversal()
long_jobs.traversal()
示例#12
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import sys

from ListNode import Node
from unorderedList import UnorderedList

SHORT = 200
MEDIUM = 1000

jobListShort = UnorderedList()
jobListMedium = UnorderedList()
jobListLong = UnorderedList()

try:
    fp = open("processor_jobs.dat", "r")

except IOError:
    sys.exit("\n\n\nUnable to Open File!!!\n\n\n")

while True:
    line = fp.readline()
    if line == "":
        break

    line = line.strip()
    field = line.split()
    data = float(field[0])

    if data <= SHORT:
        jobListShort.add(data)

    elif data <= MEDIUM:
示例#13
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import sys

from ListNode import Node
from unorderedList import UnorderedList

jobList= UnorderedList()

try:
	fp = open("processor_jobs.dat", "r")

except IOError:
	sys.exit("\n\n\nUnable to Open File!!!\n\n\n")

while True:
	line = fp.readline()
	if line == "":
		break
	
	line    = line.strip()
	field   = line.split()
	data	=float(field[0])

	jobList.add(data)

jobList.traversal()

print "Total execution Time is: ", jobList.Sum()

		
 def __init__(self):
     '''Stack()创建一个新的空栈。不需要参数,并返回一个空栈'''
     self.items = UnorderedList()
# 3.9.1 The Node Class

from node import Node

temp = Node(93)
temp.get_data()

from unorderedList import UnorderedList

my_list = UnorderedList()
my_list.add(31)
my_list.add(77)
my_list.add(17)
my_list.add(93)
my_list.add(26)
my_list.add(54)

my_list.search(17)
my_list.remove(17)
my_list.search(17)
示例#16
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'''
This is a short application of the use of the node class
Author: Marc Batete
'''
import random
from ListNode import Node
from unorderedList import UnorderedList

mylist = UnorderedList()

#value = raw_input(" enter a number: ")

while True:
    value = raw_input(" enter a number: ")

    if value == "":
        break
    else:
        mylist.add(value)

mylist.traversal()
示例#17
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 def isEmpty(self):
     return UnorderedList.isEmpty(self)
示例#18
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    def test_2_1(self):
        mylist = UnorderedList()
        numbers = [31, 77, 17, 93, 93, 26, 26, 26, 54, 54, 54]
        for number in numbers:
            mylist.add(number)

        # The linked list should contain 11 items overall
        self.assertEqual(mylist.size(), 11)

        duplicate_results = mylist.find_duplicates()

        # The duplicates should be:
        # 93 occurs a second time
        # 26 occurs a third time
        # 54 occurs a third time
        self.assertEqual(duplicate_results[93], 2)
        self.assertEqual(duplicate_results[26], 3)
        self.assertEqual(duplicate_results[54], 3)

        mylist.remove_duplicates()

        # The size of the Unordered Linked list should be 6
        self.assertEqual(mylist.size(), 6)
        # There should still be an occurrence of every digit:
        # 31, 77, 17, 93, 26, 54
        self.assertTrue(mylist.search(31))
        self.assertTrue(mylist.search(77))
        self.assertTrue(mylist.search(17))
        self.assertTrue(mylist.search(93))
        self.assertTrue(mylist.search(26))
        self.assertTrue(mylist.search(54))

        # There should be no duplicates remaining, running the find_duplicates function
        # should still leave the linkedlist untouched
        mylist.remove_duplicates()
        self.assertEqual(mylist.size(), 6)
示例#19
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from unorderedList import UnorderedList

if __name__ == "__main__":
    ml = UnorderedList()
    ml.add(1)
    ml.add("haha")
    ml.add("wut")
    print(ml)
    print(ml.size())
    #print(ml.pop(3))
    print(ml.end_item())
    print(ml.append("this is the end"))
    print(ml)
    print(ml.append("this is the final end"))
    print(ml)
    ml.insert(12,0)
    print(ml)
    print(ml.insert(12,6))
    print(ml)
示例#20
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def unorderedListRemoveTest():
	print("remove")
	ol = UnorderedList()
	ol.add('A')
	ol.add('B')
	ol.add('C')
	ol.add('D')
	ol.add('E')
	ol.add('F')
	ol.add('G')
	ol.remove('A')
	ol.remove('B')
	printList(ol)
示例#21
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'''
Playing with Unordered lists of nodes
'''

import random
from ListNode import Node
from unorderedList import UnorderedList

NUM = 20

myList = UnorderedList()

for i in xrange(NUM):

    value = random.randint(1, 100)
    #temp = Node(value)

    #print temp, temp.getData()

    myList.add(value)

#exit()

print myList.size()
myList.traversal()
myList.add(99)
myList.add(75)
myList.add(92)

print
示例#22
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def unorderedListIndexTest():
	ol = UnorderedList()
	ol.insert(0, 'A')
	ol.append('B')
	ol.append('C')
	ol.append('D')
	ol.append('E')
	ol.append('F')
	ol.append('G')

	print(ol.index('G'))
	print(ol.index('A'))
	print(ol.index('I'))
示例#23
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def test1():
    mylist = UnorderedList()

    mylist.add(31)
    mylist.add(77)
    mylist.add(17)
    mylist.add(93) 
    mylist.add(26)
    mylist.add(54)

    mylist.search(93)
    mylist.remove(17)

    mylist.remove(31)

    mylist.remove(54)

    mylist.append(9)

    mylist.insert(1,54)

    mylist.insert(0,5)

    mylist.index(4)

    mylist.pop()
    mylist.slice(0,2)
示例#24
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def unorderedListTest():
	ol = UnorderedList()
	ol.add('A')
	ol.add('B')
	print('a', ol.search('a'))
	print('B', ol.search('B'))