def test_dequeue_one():
    queue = Queue()
    queue.enqueue(2)
    queue.enqueue(1)
    actual = queue.dequeue()
    expected = 2
    assert actual == expected
Exemplo n.º 2
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    def breadth_first(self, start: Vertex) -> set:
        """Traverse a graph in breadth-first manner and return a set of Vertices

        Args:
            start (Vertex): Starting point of the traversal

        Raises:
            KeyError: If provided vertex is not part of the graph

        Returns:
            set: Set of vertices
        """
        q = Queue()
        output = set()

        if not start in self.adjacency_list:
            raise KeyError('Given Vertex is not part of the Graph')

        q.enqueue(start)

        while not q.is_empty():
            vertex = q.dequeue()
            output.add(vertex)

            for neighbor in self.get_neighbors(vertex):
                if neighbor['vertex'] not in output:
                    q.enqueue(neighbor['vertex'])

        return output
Exemplo n.º 3
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def test_dequeue():
    q = Queue()
    q.enqueue('apple')
    q.dequeue()
    actual = q.is_empty()
    expected = True
    assert actual == expected
Exemplo n.º 4
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def test_queue_enqueue():
    value = 1
    queue = Queue()
    queue.enqueue(value)
    expected = value
    actual = queue.front.value
    assert actual == expected
Exemplo n.º 5
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def test_enqueue_two():
    q = Queue()
    q.enqueue("apples")
    q.enqueue("bananas")
    actual = q.peek()
    expected = "apples"
    assert actual == expected
Exemplo n.º 6
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def test_dequeue_when_full():
    q = Queue()
    q.enqueue("apples")
    q.enqueue("bananas")
    actual = q.dequeue()
    expected = "apples"
    assert actual == expected
Exemplo n.º 7
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def test_queue_dequeue():
    value = 1
    queue = Queue()
    queue.enqueue(value)
    actual = queue.dequeue()
    expected = value
    assert actual == expected
def test_can_peek_queue():
    queue = Queue()
    queue.enqueue(1)
    queue.enqueue(2)
    actual = queue.peek()
    expected = 1
    assert actual == expected
def test_enqueue_multiple():
    queue = Queue()
    queue.enqueue(3)
    queue.enqueue(2)
    queue.enqueue(1)
    actual = queue.rear.value
    expected = 1
    assert actual == expected
Exemplo n.º 10
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def test_queue_enqueue_many():
    value1 = 1
    value2 = 2
    queue = Queue()
    queue.enqueue(value1)
    queue.enqueue(value2)
    expected = value1
    actual = queue.front.value
    assert actual == expected
def test_can_empty_queue():
    queue = Queue()
    queue.enqueue(1)
    queue.enqueue(1)
    queue.dequeue()
    queue.dequeue()
    actual = queue.is_empty()
    expected = True
    assert actual == expected
Exemplo n.º 12
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def test_queue_dequeue_until_empty():
    value1 = 1
    value2 = 2
    queue = Queue()
    queue.enqueue(value1)
    queue.enqueue(value2)
    queue.dequeue()
    queue.dequeue()
    actual = queue.front
    expected = None
    assert actual == expected
Exemplo n.º 13
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def test_exhausted():
    #  TODO TODO is empty should return true after dequeueing all previously queued items
    q = Queue()
    q.enqueue('apples')
    q.enqueue('oranges')
    q.dequeue()
    q.dequeue()

    actual = q.is_empty()
    expected = True
    assert actual == expected
Exemplo n.º 14
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def test_peek_post_dequeue():
    # TODO it should return a new first value if peek is called after a dequeue
    q = Queue()
    q.enqueue('apples')
    q.enqueue('oranges')
    actual = q.peek()
    expected = 'apples'
    assert actual == expected
    q.dequeue()
    actual = q.peek()
    expected = 'oranges'
    assert actual == expected
Exemplo n.º 15
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    def breadth_first(self, vertex):
        node = []
        breadth = Queue()

        breadth.enqueue(vertex)
        visited = set()

        while not breadth.is_empty():
            front = breadth.dequeue()
            node.append(front.value)

            for neighbor in self.get_neighbor(front):
                if neighbor.vertex.value not in visited:
                    visited.add(neighbor.vertex.value)
                    breadth.enqueue(neighbor.vertex)
        return node
Exemplo n.º 16
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class AnimalShelter:
    def __init__(self):
        self.cats = Queue()
        self.dogs = Queue()
        self.animal_order = Queue()

    def enqueue(self, animal):
        """Add passed in animal object to the queue

        Args:
            animal (obj): Expects either Cat() or Dog() instance

        Raises:
            ValueError: If not Cat() or Dog() is passed in
        """
        if animal.type == 'Cat':
            self.cats.enqueue(animal)
            self.animal_order.enqueue('Cat')
        elif animal.type == 'Dog':
            self.dogs.enqueue(animal)
            self.animal_order.enqueue('Dog')
        else:
            raise ValueError('Must be either a cat or a dog!')

    def dequeue(self, preference=None):
        """Get the longest waiting in queue Cat() or Dog() depending on passed in preference. If no preference passed in get the longest waiting in queue animal

        Args:
            preference (str, optional): Animal to be returned (cat or dog). Defaults to None.

        Raises:
            ValueError: If not a cat or a dog is passed in as a preference
            AttributeError: When no animals is available

        Returns:
            obj: Cat() or Dog() instance
        """
        try:
            if not preference:
                preference = self.animal_order.dequeue()
            if preference.lower() == 'cat':
                animal = self.cats.dequeue()
            elif preference.lower() == 'dog':
                animal = self.dogs.dequeue()
            else:
                raise ValueError('Must be either a cat or a dog!')
            return animal

        except AttributeError as err:
            raise AttributeError('No animals available!')
    def add(self, val: any) -> None:
        """Add a new node with Breadth first approach

        Args:
            val (any): Value to add
        """
        new_node = Node(val)
        if self.root:
            q = Queue()
            q.enqueue(self.root)

            while not q.is_empty():
                node = q.dequeue()

                if node.left:
                    q.enqueue(node.left)
                else:
                    node.left = new_node
                    return

                if node.right:
                    q.enqueue(node.right)
                else:
                    node.right = new_node
                    return

        else:
            self.root = new_node
Exemplo n.º 18
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def test_peek():
    q = Queue()
    q.enqueue("apple")
    q.enqueue("banana")
    q.enqueue("cucumber")
    actual = q.peek()
    expected = "apple"
    assert actual == expected
    def breadth_first(self) -> list:
        """Traverse the tree in breadth-first manner

        Returns:
            list: Values of the tree
        """
        output = []
        if self.root:
            q = Queue()
            q.enqueue(self.root)

            while not q.is_empty():
                el = q.dequeue()
                output.append(el.val)

                if el.left:
                    q.enqueue(el.left)
                if el.right:
                    q.enqueue(el.right)

        return output
def test_enqueue_into_queue():
    queue = Queue()
    queue.enqueue(1)
    actual = queue.rear.value
    expected = 1
    assert actual == expected
def test_multiple_enqueue_fails():
    queue = Queue()
    queue.enqueue(3)
    queue.enqueue(2)
    queue.enqueue(1)
    assert queue.rear.value != 2
Exemplo n.º 22
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def test_enqueue():
    q = Queue()
    q.enqueue("apple")
    actual = q.front.value
    expected = "apple"
    assert actual == expected