class LinkedQueue:
def __init__(self):
self.data = Doubly_Linked_List()
def __len__(self):
return len(self.data)
def is_empty(self):
return self.data.is_empty()
def first(self):
if self.is_empty():
raise Empty("Queue is Empty")
return self.data.first()
def dequeue(self): # O(1)
if self.is_empty():
raise Empty("Queue is Empty")
return self.data.delete_first()
def enqueue(self, e): # O(1)
self.data.insert_last(e)
def __str__(self):
return str(self.data)
class LinkedQueue():
def __init__(self, N=10):
self._data = Doubly_Linked_List()
self._size = 0
def __len__(self):
return self._size
def is_empty(self):
return self._size == 0
def first(self): #O(1)
if self.is_empty():
raise Empty("Queue is Empty")
return self._header._next._element
def dequeue(self): #O(1)
if self.is_empty():
raise Empty("Queue is Empty")
self._size -= 1
return self._data.delete_first() ##???
def enqueue(self, e): #O(1)
self._size += 1
self._data.insert_last(e) ##???
def __str__(self):
''' You can simply print self._data '''
return str(self._data) #print directly or as string
class Integer():
def __init__(self, num_str=''):
self._data = Doubly_Linked_List()
for i in range(len(num_str)):
self._data.insert_last(num_str[i])
def __add__(self, other):
carrier = 0
newInt = 0
result = Integer()
currNode = self._data._trailer
myNode = other._data._trailer
if self._data.is_empty() or other._data.is_empty():
raise Exception("invalid input")
while currNode._prev is not self._data._header:
currNode = currNode._prev
if myNode._prev is not self._data._header:
myNode = myNode._prev
newInt = int(currNode._element) + int(myNode._element)
if carrier != 0:
newInt += 1
carrier -= 1
if newInt >= 10:
newInt -= 10
carrier += 1
result._data.insert_first(str(newInt))
if currNode._prev == self._data._header:
mybool = False
while myNode._prev is not other._data._header:
myNode = myNode._prev
result._data.insert_first(myNode._element)
if myNode._prev == other._data._header:
obool = False
while currNode._prev is not self._data._header:
currNode = currNode._prev
result._data.insert_first(currNode._element)
return result
def __repr__(self):
repstr = ''
currNode = self._data._header._next
while currNode is not self._data._trailer:
repstr += currNode._element
currNode = currNode._next
return repstr
# n1 = Integer('375')
# n2 = Integer('4029')
# print(n1)
# print(n2)
# n3 = n1 + n2
# print(n3)
class CompactString():
def __init__(self, orig_str):
self._data = Doubly_Linked_List()
for i in range(len(orig_str)):
if i > 0 and orig_str[i] != orig_str[i-1]:
self._data.insert_last((orig_str[i], 1))
else:
mylast = self._data.last()
tup1 = mylast[1]
self._data._trailer._prev._element = (orig_str[i], tup1+1)
def __add__(self, other):
if self._trailer._prev._element[0] == other._header._next._element[0]:
else:
self._trailer._prev._next = other._header._next
other._header._next._prev = self._trailer._prev
for
def __lt__(self, other):
if self._data._header._next == self._data._trailer and other._data._header._next == other._data._trailer:
return False
elif other._data._header._next == self._data._trailer:
return False
elif self._data._header._next == self._data._trailer:
def __eq__(self, other):
if self._data._header._next == self._data._trailer and other._data._header._next == other._data._trailer:
return True
def __le__(self, other):
if self == other:
return True
def __gt__(self, other):
def __ge__(self, other):
if self == other:
return True
def __repr__(self):
class Integer():
def __init__(self, num_str=''):
self._data = Doubly_Linked_List()
for i in range(len(num_str)):
self._data.insert_last(num_str[i])
def __add__(self, other):
carrier = 0
newInt = 0
result = Integer()
currNode = self._data._trailer
myNode = other._data._trailer
while currNode._prev is not self._data._header:
currNode = currNode._prev
if myNode._prev is not self._data._header:
myNode = myNode._prev
newInt = int(currNode._element) + int(myNode._element)
if carrier != 0:
newInt += 1
carrier -= 1
if newInt >= 10:
newInt -= 10
carrier += 1
result._data.insert_first(str(newInt))
if currNode._prev == self._data._header:
mybool = False
while myNode._prev is not other._data._header:
myNode = myNode._prev
result._data.insert_first(myNode._element)
if myNode._prev == other._data._header:
obool = False
while currNode._prev is not self._data._header:
currNode = currNode._prev
result._data.insert_first(currNode._element)
return result
def __repr__(self):
repstr = ''
currNode = self._data._header._next
while currNode is not self._data._trailer:
repstr += currNode._element
currNode = currNode._next
return repstr
now = merge_sublists(Node1._next, Node2) while Node1 is not srt_lnk_lst1._trailer._prev: now.insert_last(Node1._element) return now else: if Node1._element > Node2._element: now = merge_sublists(Node1._next, Node2) now.insert_last(Node1._element) else: now = merge_sublists(Node1, Node2._next) now.insert_last(Node._element) return now return merge_sublists(srt_lnk_lst1._header._next, srt_lnk_lst2._header._next) lst1 = Doubly_Linked_List() lst1.insert_last(1) lst1.insert_last(3) lst1.insert_last(5) lst1.insert_last(6) lst1.insert_last(8) print(lst1) lst2 = Doubly_Linked_List() lst2.insert_last(2) lst2.insert_last(3) lst2.insert_last(5) lst2.insert_last(10) lst2.insert_last(15) lst2.insert_last(18) print(lst2)
class CompactString():
def __init__(self, orig_str=''):
self._data = Doubly_Linked_List()
for i in range(len(orig_str)):
if i == 0:
self._data.insert_last((orig_str[i], 1))
if i > 0 and orig_str[i] != orig_str[i - 1]:
self._data.insert_last((orig_str[i], 1))
else:
mylast = self._data.last()
tup1 = mylast[1]
self._data._trailer._prev._element = (orig_str[i], tup1 + 1)
def __add__(self, other):
result = CompactString()
if self._data._trailer._prev._element[
0] == other._data._header._next._element[0]:
newcount = other._data._header._next._element[
1] + self._data._trailer._prev._element[1]
other._data._header._next._element = other._data._header._next._element[
0], newcount
self._data.delete_last()
curr = self._data._header._next
while curr._element != None:
result._data.insert_last(curr._element)
curr = curr._next
mycurr = other._data._header._next
while mycurr._element != None:
result._data.insert_last(mycurr._element)
mycurr = mycurr._next
return result
def __lt__(self, other):
curr = self._data._header._next
mycurr = other._data._header._next
while curr != self._data._trailer and mycurr != other._data._trailer:
if curr._element[0] == mycurr._element[0]:
if curr._element[1] == mycurr._element[1]:
curr = curr._next
mycurr = mycurr._next
elif curr._element[1] < mycurr._element[1]:
if curr._next is not self._data._trailer:
return curr._next._element[0] < mycurr._element[0]
else:
return True
else:
if mycurr._next is not other._data._trailer:
return curr._element[0] < mycurr._next._element[0]
else:
return False
elif curr._element[0] < mycurr._element[0]:
return True
else:
return False
if mycurr != other._data._trailer and curr == self._data._trailer:
return True
return False
def __eq__(self, other):
if not self < other:
if not self > other:
return True
return False
# curr = self._data._header._next
# mycurr = other._data._header._next
# while curr != self._data._trailer:
# if mycurr != self._data._trailer and curr._element == mycurr._element:
# curr = curr._next
# mycurr = mycurr._next
# if curr == self._data._trailer and mycurr == self._data._trailer:
# return True
# return False
def __le__(self, other):
if self < other:
return True
else:
if self == other:
return True
return False
def __gt__(self, other):
curr = self._data._header._next
mycurr = other._data._header._next
while curr != self._data._trailer and mycurr != other._data._trailer:
if curr._element[0] == mycurr._element[0]:
if curr._element[1] == mycurr._element[1]:
curr = curr._next
mycurr = mycurr._next
elif mycurr._element[1] < curr._element[1]:
if mycurr._next is not other._data._trailer:
return curr._element[0] > mycurr._next._element[0]
else:
return True
else:
if curr._next is not self._data._trailer:
return curr._next._element[0] > mycurr._element[0]
else:
return False
elif curr._element[0] > mycurr._element[0]:
return True
else:
return False
if mycurr == other._data._trailer and curr != self._data._trailer:
return True
return False
def __ge__(self, other):
if self > other:
return True
else:
if self == other:
return True
return False
def __repr__(self):
repstr = ''
currNode = self._data._header._next
while currNode is not self._data._trailer:
for i in range(currNode._element[1]):
repstr += currNode._element[0]
currNode = currNode._next
return repstr
s1 = CompactString('aaaaabbbaaac')
s2 = CompactString('aaaaaaacccaaaa')
print(s1)
print(s2)
s3 = s2 + s1
print(s3)
print(s1 > s2)
