def main():
    numbers1 = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10]
    lst1 = DoublyList()
    common = None
    for idx, n in enumerate(numbers1):
        node = Node(n, "hello:%d" % n)
        lst1.add_node(node)
        if idx == 5:
            common = node

    lst2 = DoublyList()
    numbers2 = [13, 14, 15]
    for idx, n in enumerate(numbers2):
        lst2.add(n, "hello:%d" % n)

    # join them
    lst2.tail.next = common
    lst2.tail = lst1.tail

    assert common == common_node(lst1, lst2)

    numbers1 = [1, 2, 3, 4, 5, 6, 7, 8, 9, 10]
    lst1 = DoublyList()
    for idx, n in enumerate(numbers1):
        node = Node(n, "hello:%d" % n)
        lst1.add_node(node)

    lst2 = DoublyList()
    numbers2 = [11, 12, 13, 14, 15, 16, 17, 18, 19, 20]
    for idx, n in enumerate(numbers2):
        lst2.add(n, "hello:%d" % n)

    assert None is common_node(lst1, lst2)
예제 #2
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 def test_insert_before(self):
     """
     Tests that a Node can add another Node before it
     """
     node = Node(1)
     node.insert_before(2)
     self.assertEqual(2, node.prev.value)
예제 #3
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def insert_at_beginning(head, data):
    temp = head
    new_node = Node(data)
    new_node.next = temp
    temp.prev = new_node
    head = new_node
    return head
예제 #4
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 def test_insert_after(self):
     """
     Tests that a Node can add another Node after it
     """
     node = Node(1)
     node.insert_after(2)
     self.assertEqual(2, node.next.value)
예제 #5
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def clone_list(lst):

    # step 1
    # append new nodes after existing nodes
    current = lst.head
    while current:
        current_next = current.next
        new_node = Node(current.key, current.data + " :: new")
        current.next = new_node
        new_node.next = current_next
        current = current_next

    # step2
    # assign random pointers
    current = lst.head
    while current:
        if current.random:
            current.next.random = current.random.next
        current = current.next.next

    # step 3
    # seperate two lists
    new_list = DoublyList()
    new_head = lst.head.next
    new_list.head = new_head

    old = lst.head
    new = new_head
    while old:
        old.next = new.next
        old = old.next
        new.next = old.next if old else None
        new = new.next if new else None
    return new_list
예제 #6
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    def test_prepend_adds_an_element_at_the_beginning(self):
        first_node = Node(100)
        node = Node(1000)
        linked = DoublyLinkedList(first_node)
        linked.prepend(node)

        self.assertEqual(linked.as_list(), [1000, 100])
        self.assertIs(linked.first_node, node)
        self.assertIs(linked.first_node.next, first_node)
        self.assertIs(first_node.previous, node)
예제 #7
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def main():
    n1      =   Node(1, None, None)
    n2      =   Node(2, None, None)
    n3      =   Node(1, None, None)
    n4      =   Node(3, None, None)
    l = DoubleList()
    l.append(n1)
    l.append(n2)
    l.append(n3)
    l.append(n4)
    print(is_palindrome(l))
예제 #8
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    def enqueue(self, val):
        """Add new element to end of the queue."""
        new_node = Node(self, val)

        if self.linked_list.head is None:
            self.linked_list.head = new_node
            self.linked_list.tail = new_node
        else:
            self.linked_list.tail.prev_node == new_node
            new_node.next_node = self.linked_list.tail
            self.linked_list.tail == new_node
def insertion_sort(lt, val):
    if lt.len == 0:
        lt.addNodeE(Node(val))
    else:
        current = lt.head
        while True:
            if current.val <= val:
                if current.next != None:
                    current = current.next
                else:
                    lt.addNodeE(Node(val))
                    break
            else:
                node = Node(val)
                temp = current.prev
                current.setPrev(node)
                node.setNext(current)
                if temp != None:
                    node.setPrev(temp)
                    temp.setNext(node)
                else:
                    lt.head = node
                lt.len += 1
                break
    return lt
예제 #10
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    def test_delete(self):
        node_list = [
            Node(1),
            Node(1),
            Node(1),
            Node(2),
            Node(2),
            Node(9),
            Node(9),
            Node(10)
        ]

        self.list.add_in_tail(node_list[0])
        self.list.delete(1)
        self.assertIsNone(self.list.head)
        self.assertIsNone(self.list.tail)

        for node in node_list:
            self.list.add_in_tail(node)
        self.list.delete(1)
        self.assertEqual(self.list.head, node_list[1])
        self.assertIsNone(self.list.head.prev)

        self.list.delete(10)
        self.assertEqual(self.list.tail, node_list[-2])
        self.assertIsNone(self.list.tail.next)

        self.list.delete(2)
        self.assertEqual(self.list.head.next.next, node_list[4])
        self.assertIsNotNone(self.list.head.next.next.prev)
        self.assertIsNotNone(self.list.head.next.next.next)
def test_node_has_attributes():
    """Test that the node has attributes."""
    from doubly_linked_list import Node
    n = Node(1, None)
    assert n.data
    assert n.next_node is None
    assert n.previous_node is None
예제 #12
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    def test_insert_at_position_one(self):
        linked = get_instance()
        second_node = Node(1000)
        linked.insert(second_node, 1)

        self.assertEqual(linked.as_list(),
                         [100, 1000, 200, 300, 400])
예제 #13
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    def put(self, value):
        if value in self.cache_table:
            new_node = self.cache_table[value]
            if new_node == self.cache_list.tail:
                return
            elif new_node == self.cache_list.head:
                self.cache_list.delete_with_data(new_node)
                self.cache_list.insert_at_end(new_node)
            else:
                self.cache_list.tail.prev.next = new_node
                new_node.prev.next = self.cache_list.tail  #1
                new_node.next.prev = self.cache_list.tail  #2
                self.cache_list.tail.next = new_node.next  #3
                self.cache_list.tail.prev.next = new_node  #4
                # import pdb; pdb.set_trace()
                new_node.prev, self.cache_list.tail.prev = self.cache_list.tail.prev, new_node.prev  # 5 and 6
                new_node.next = None  # 7
                self.cache_list.tail = new_node  #8
        else:
            new_node = Node(value, None, None)

            if self.cache_list.length < self.size:
                self.cache_list.insert_at_end(value)
                self.cache_table[value] = self.cache_list.tail
            else:
                del self.cache_table[self.cache_list.head.data]
                self.cache_list.delete_from_beginning()
                self.cache_list.insert_at_end(value)
                self.cache_table[value] = self.cache_list.tail
def test_node_has_attributes():
    """Test node."""
    from doubly_linked_list import Node
    n = Node(1, None, None)
    assert hasattr(n, 'data')
    assert hasattr(n, 'next')
    assert hasattr(n, 'prev')
예제 #15
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    def test_insert_at_the_end(self):
        linked = get_instance()
        second_node = Node(1000)
        linked.insert(second_node, 3)

        self.assertEqual(linked.as_list(),
                         [100, 200, 300, 1000, 400])
    def test_insert(self):

        list_test = LinkedList2()
        node_1000 = Node(1000)
        list_test.insert(None, node_1000)
        self.assertEqual(get_list_nodes(list_test), [1000])
        self.assertEqual(list_test.tail.next, None)
        self.assertEqual(list_test.head.prev, None)
        self.assertEqual(list_test.tail.value, 1000)
        self.assertEqual(list_test.head.value, 1000)
        self.assertEqual(list_test.head.next, None)
        self.assertEqual(list_test.tail.prev, None)

        list_test = LinkedList2()
        node_12 = Node(12)
        node_73 = Node(73)
        node_1000 = Node(1000)
        list_test.add_in_tail(node_12)
        list_test.add_in_tail(node_73)
        list_test.insert(node_12, node_1000)
        self.assertEqual(get_list_nodes(list_test), [12, 1000, 73])
        self.assertEqual(list_test.head.next.value, 1000)
        self.assertEqual(list_test.head.next.next.value, 73)
        self.assertEqual(list_test.tail.prev.value, 1000)
        self.assertEqual(list_test.tail.next, None)
        self.assertEqual(list_test.tail.prev.next.value, 73)

        list_test = LinkedList2()
        node_12 = Node(12)
        node_1000 = Node(1000)
        list_test.add_in_tail(node_12)
        list_test.insert(node_12, node_1000)
        self.assertEqual(get_list_nodes(list_test), [12, 1000])
        self.assertEqual(list_test.head.next.value, 1000)
        self.assertEqual(list_test.tail.prev.value, 12)
        self.assertEqual(list_test.tail.next, None)
        self.assertEqual(list_test.tail.prev.next.value, 1000)

        lst = LinkedList2()
        node_1000 = Node(1000)
        node_10 = Node(10)
        node_12 = Node(12)
        lst.add_in_tail(node_10)
        lst.add_in_tail(node_12)
        lst.insert(node_12, node_1000)
        self.assertEqual(get_list_nodes(lst), [10, 12, 1000])
        self.assertEqual(lst.head.next.next.value, 1000)
        self.assertEqual(lst.tail.prev.value, 12)
        self.assertEqual(lst.tail.next, None)
        self.assertEqual(lst.tail.prev.next.value, 1000)
예제 #17
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class LRUcache(object):
    
    def __init__(self,size=None):
        self.cache_list = Node()
        self.cache_table = {}
        self.size = size
    
    def _add_to_list(self,value):
        new_node = self.cache_table[value]
        if new_node == self.cache_list.tail:
            return
        elif new_node == self.cache_list.head:
            self.cache_list.delete_with_data(new_node)
            self.cache_list.insert_at_end(new_node)
        else:
            self.cache_list.tail.prev.next = new_node
            new_node.prev.next =  self.cache_list.tail #1
            new_node.next.prev =  self.cache_list.tail #2
            self.cache_list.tail.next = new_node.next #3
            self.cache_list.tail.prev.next = new_node #4
            new_node.prev, self.cache_list.tail.prev = self.cache_list.tail.prev, new_node.prev # 5 and 6
            new_node.next =  None # 7
            self.cache_list.tail = new_node #8
    
    def put(self,value):
        # import pdb; pdb.set_trace()
        if value in self.cache_table:
            self._add_to_list(value)
        else:                
            if self.cache_list.length < self.size:
                self.cache_list.insert_at_end(value)
                self.cache_table[value] = self.cache_list.tail
            else:
                del self.cache_table[self.cache_list.head.data]
                self.cache_list.delete_from_beginning()
                self.cache_list.insert_at_end(value)
                self.cache_table[value] = self.cache_list.tail
    
    def get(self,value):
        if value in self.cache_table:
            node = self.cache_table[value]
            self._add_to_list(value)
            print (node.data)
        else:
            return -1
예제 #18
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    def test_prepend_adds_an_element_at_the_beginning_even_without_a_first_node(self):
        linked = DoublyLinkedList()
        node = Node(1000)
        linked.prepend(node)

        self.assertEqual(linked.as_list(), [1000])
        self.assertIs(linked.first_node, node)
        self.assertIs(linked.first_node.next, None)
        self.assertIs(linked.first_node.previous, None)
예제 #19
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 def test_delete_node(self):
     """
     Tests that a Node can delete itself
     """
     node = Node(1)
     node.insert_after(2)
     next = node.next
     node.insert_before(5)
     prev = node.prev
     node.delete()
     self.assertEqual(next.prev.value, 5)
     self.assertEqual(prev.next.value, 2)
예제 #20
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def __merge_sort(lst, frm, _to):

    if frm is _to:
        new_lst = DoublyList()
        new_node = Node.from_another_node(frm)
        new_lst.add_node(new_node)
        return new_lst

    mid = middle(lst, frm, _to)
    left = __merge_sort(lst, frm, mid)
    right = __merge_sort(lst, mid.next, _to)
    return merge(left, right)
    def test_delete_3(self):

        self.list_test = LinkedList2()
        self.list_test.delete(12)
        self.assertEqual(get_list_nodes(self.list_test), [])

        self.list_test = LinkedList2()
        self.list_test.add_in_tail(Node(12))
        self.list_test.delete(12)
        self.assertEqual(get_list_nodes(self.list_test), [])

        self.list_test = LinkedList2()
        self.list_test.add_in_tail(Node(12))
        self.list_test.delete(10)
        self.assertEqual(get_list_nodes(self.list_test), [12])

        self.list_test = LinkedList2()
        self.list_test.add_in_tail(Node(11))
        self.list_test.add_in_tail(Node(12))
        self.list_test.add_in_tail(Node(73))
        self.list_test.delete(73)
        self.assertEqual(get_list_nodes(self.list_test), [11, 12])
 def setUp(self):
     self.list_test = LinkedList2()
     self.list_test.add_in_tail(Node(12))
     self.list_test.add_in_tail(Node(73))
     self.list_test.add_in_tail(Node(73))
     self.list_test.add_in_tail(Node(12))
     self.list_test.add_in_tail(Node(73))
     self.list_test.add_in_tail(Node(73))
    def test_find_all(self):

        lst = self.list_test.find_all(12)
        list_value = [node.value for node in lst]
        self.assertEqual(list_value, [12, 12])

        list_test = LinkedList2()
        self.assertEqual(list_test.find_all(12), [])

        list_test = LinkedList2()
        list_test.add_in_tail(Node(12))
        lst = list_test.find_all(12)
        list_value = [node.value for node in lst]
        self.assertEqual(list_value, [12])
예제 #24
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 def add(self, elem):
     self._validate(elem)
     new = Node(elem)
     if self.is_empty():
         self.head = new
         self.tail = new
     else:
         current = self.head
         next_ = current.get_next()
         while current is not None:
             if self._is_head(new) or self._is_tail(new) or self._is_middle(
                     new, current, next_):
                 return True
             current = current.get_next()
             next_ = next_.get_next()
         return False
예제 #25
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 def test_find_all(self):
     node_list = [
         Node(1),
         Node(1),
         Node(1),
         Node(2),
         Node(2),
         Node(9),
         Node(9),
         Node(10)
     ]
     for node in node_list:
         self.list.add_in_tail(node)
     self.assertEqual(self.list.find_all(1), node_list[0:3])
     self.assertEqual(self.list.find_all(2), node_list[3:5])
     self.assertEqual(self.list.find_all(9), node_list[5:7])
     self.assertEqual(self.list.find_all(10), node_list[-1:])
     self.assertEqual(self.list.find_all(3123), [])
예제 #26
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파일: lru_cache.py 프로젝트: khoi/pytudes
 def insert(self, key, value):
     if key in self.cache:
         node = self.cache[key]
         node.data = (key, value)
         self.queue.removeNode(node)
         self.queue.insert_node(node, 0)
     else:
         new_node = Node((key, value))
         evicted_value = None
         if len(self.cache) >= self.capacity:
             lru_node = self.queue.tail
             lru_key, evicted_value = lru_node.data
             del self.cache[lru_key]
             self.queue.removeNode(lru_node)
         self.cache[key] = new_node
         self.queue.insert_node(new_node, 0)
         return evicted_value
예제 #27
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    def test_clean(self):
        node_list = [
            Node(1),
            Node(1),
            Node(1),
            Node(2),
            Node(2),
            Node(9),
            Node(9),
            Node(10)
        ]

        for node in node_list:
            self.list.add_in_tail(node)

        self.list.clean()
        self.assertEqual(self.list.len(), 0)
        self.assertIsNone(self.list.head)
        self.assertIsNone(self.list.tail)
예제 #28
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 def test_find(self):
     node_list = [
         Node(1),
         Node(1),
         Node(1),
         Node(2),
         Node(2),
         Node(9),
         Node(9),
     ]
     for node in node_list:
         self.list.add_in_tail(node)
     self.assertEqual(self.list.find(1), node_list[0])
     self.assertEqual(self.list.find(2), node_list[3])
     self.assertEqual(self.list.find(9), node_list[5])
     self.assertIsNone(self.list.find(123))
예제 #29
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    def test_delete_all(self):
        node_list = [
            Node(1),
            Node(1),
            Node(1),
            Node(2),
            Node(2),
            Node(9),
            Node(9),
            Node(10)
        ]
        for node in node_list:
            self.list.add_in_tail(node)
        self.list.delete(1, True)
        self.assertEqual(self.list.head, node_list[3])
        self.assertIsNone(self.list.head.prev)

        self.list.delete(10, True)
        self.assertEqual(self.list.tail, node_list[-2])
        self.assertIsNone(self.list.tail.next)

        self.list.delete(2, True)
        self.assertEqual(self.list.head, node_list[-3])
        self.assertIsNone(self.list.head.prev)
예제 #30
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def insert_at_position(DL, n, data):
    """
    This function should insert an element in a doubly linked list at a specific position.
    E.g. After executing insert_at_position(DL, 2, 88) with DL = 10 <-> 67 <-> 87 <-> 9
    It should be DL =  10 <-> 88 <-> 67 <-> 87 <-> 9
    Note 1: try to implement this function in the fastest way possible (...how?)
    Note 2: be careful at how you manage insertion at the head of the list (position 1) and at the tail (position DL.__len__())
    :param DL: a doubly linked list
    :param n: the position at which n should be inserted
    :param data: the element to insert
    """
    len = DL.__len__()
    if n > len + 1 or n <= 0:
        print("Insert fail: wrong position")
        return
    if n == len + 1:
        DL.add(data)
        return
    else:
        new_node = Node(data, None, None)
        if n < len / 2:
            walk = DL._head
            for i in range(n - 1):
                walk = walk._next
            if n != 1:
                new_node._prev = walk._prev
                walk._prev._next = new_node
            new_node._next = walk
            walk._prev = new_node
            if n == 1:
                DL._head = new_node
        else:
            walk = DL._tail
            for i in range(len - n):
                walk = walk._prev
            new_node._prev = walk._prev
            walk._prev._next = new_node
            new_node._next = walk
            walk._prev = new_node
            if n == 1:
                DL._head = new_node
        return
예제 #31
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 def addAtStart(self, value):
   tempNode = Node(value)
   self.head.prev = tempNode
   tempNode.next = self.head
   self.head = tempNode
   self.printList()